N BARYONS S = 0, I = 1/2)Mean nn-oscillation time > 8.6×107 s, CL = 90% (freen) Mean nn-oscillation...
Transcript of N BARYONS S = 0, I = 1/2)Mean nn-oscillation time > 8.6×107 s, CL = 90% (freen) Mean nn-oscillation...
Citation: P.A. Zyla et al. (Particle Data Group), Prog. Theor. Exp. Phys. 2020, 083C01 (2020)
N BARYONSN BARYONSN BARYONSN BARYONS(S = 0, I = 1/2)(S = 0, I = 1/2)(S = 0, I = 1/2)(S = 0, I = 1/2)p, N+ = uud; n, N0 = udd
pppp I (JP ) = 12 (
12+)
Mass m = 1.00727646662 ± 0.00000000009 u (S = 3.1)
Mass m = 938.272081 ± 0.000006 MeV [a]∣
∣mp − mp
∣
∣/mp < 7× 10−10, CL = 90% [b]∣
∣
qpmp
∣
∣/(qpmp
) = 1.00000000000 ± 0.00000000007∣
∣qp + qp∣
∣/e < 7× 10−10, CL = 90% [b]∣
∣qp + qe∣
∣/e < 1× 10−21 [c]
Magnetic moment µ = 2.7928473446 ± 0.0000000008 µN(µp + µp)
/
µp = (0.002 ± 0.004)× 10−6
Electric dipole moment d < 0.021× 10−23 e cm
Electric polarizability α = (11.2 ± 0.4)× 10−4 fm3
Magnetic polarizability β = (2.5 ± 0.4)× 10−4 fm3 (S = 1.2)
Charge radius, µp Lamb shift = 0.84087 ± 0.00039 fm [d]
Charge radius = 0.8409 ± 0.0004 fm [d]
Magnetic radius = 0.851 ± 0.026 fm [e]
Mean life τ > 3.6× 1029 years, CL = 90% [f ] (p → invisible mode)
Mean life τ > 1031 to 1033 years [f ] (mode dependent)
See the “Note on Nucleon Decay” in our 1994 edition (Phys. Rev. D50D50D50D50,
1173) for a short review.
The “partial mean life” limits tabulated here are the limits on τ/Bi , where
τ is the total mean life and Bi is the branching fraction for the mode inquestion. For N decays, p and n indicate proton and neutron partial
lifetimes.
Partial mean life p
p DECAY MODESp DECAY MODESp DECAY MODESp DECAY MODES (1030 years) Confidence level (MeV/c)
Antilepton + mesonAntilepton + mesonAntilepton + mesonAntilepton + mesonN → e+π > 5300 (n), > 16000 (p) 90% 459
N → µ+π > 3500 (n), > 7700 (p) 90% 453
N → νπ > 1100 (n), > 390 (p) 90% 459
p → e+η > 10000 90% 309
p → µ+η > 4700 90% 297
n → ν η > 158 90% 310
N → e+ρ > 217 (n), > 720 (p) 90% 149
N → µ+ρ > 228 (n), > 570 (p) 90% 113
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N → ν ρ > 19 (n), > 162 (p) 90% 149
p → e+ω > 1600 90% 143
p → µ+ω > 2800 90% 105
n → νω > 108 90% 144
N → e+K > 17 (n), > 1000 (p) 90% 339
N → µ+K > 26 (n), > 1600 (p) 90% 329
N → νK > 86 (n), > 5900 (p) 90% 339
n → νK0S > 260 90% 338
p → e+K∗(892)0 > 84 90% 45
N → νK∗(892) > 78 (n), > 51 (p) 90% 45
Antilepton + mesonsAntilepton + mesonsAntilepton + mesonsAntilepton + mesons
p → e+π+π− > 82 90% 448
p → e+π0π0 > 147 90% 449
n → e+π−π0 > 52 90% 449
p → µ+π+π− > 133 90% 425
p → µ+π0π0 > 101 90% 427
n → µ+π−π0 > 74 90% 427
n → e+K0π− > 18 90% 319
Lepton + mesonLepton + mesonLepton + mesonLepton + meson
n → e−π+ > 65 90% 459
n → µ−π+ > 49 90% 453
n → e−ρ+ > 62 90% 150
n → µ−ρ+ > 7 90% 115
n → e−K+ > 32 90% 340
n → µ−K+ > 57 90% 330
Lepton + mesonsLepton + mesonsLepton + mesonsLepton + mesons
p → e−π+π+ > 30 90% 448
n → e−π+π0 > 29 90% 449
p → µ−π+π+ > 17 90% 425
n → µ−π+π0 > 34 90% 427
p → e−π+K+ > 75 90% 320
p → µ−π+K+ > 245 90% 279
Antilepton + photon(s)Antilepton + photon(s)Antilepton + photon(s)Antilepton + photon(s)
p → e+γ > 670 90% 469
p → µ+γ > 478 90% 463
n → ν γ > 550 90% 470
p → e+γ γ > 100 90% 469
n → ν γ γ > 219 90% 470
Antilepton + single masslessAntilepton + single masslessAntilepton + single masslessAntilepton + single massless
p → e+X > 790 90% –p → µ+X > 410 90% –
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Three (or more) leptonsThree (or more) leptonsThree (or more) leptonsThree (or more) leptons
p → e+ e+ e− > 793 90% 469
p → e+µ+µ− > 359 90% 457
p → e+ν ν > 170 90% 469
n → e+ e− ν > 257 90% 470
n → µ+ e− ν > 83 90% 464
n → µ+µ− ν > 79 90% 458
p → µ+ e+ e− > 529 90% 463
p → µ+µ+µ− > 675 90% 439
p → µ+ν ν > 220 90% 463
p → e−µ+µ+ > 6 90% 457
n → 3ν > 5× 10−4 90% 470
Inclusive modesInclusive modesInclusive modesInclusive modesN → e+ anything > 0.6 (n, p) 90% –N → µ+ anything > 12 (n, p) 90% –N → e+π0anything > 0.6 (n, p) 90% –
∆B = 2 dinucleon modes∆B = 2 dinucleon modes∆B = 2 dinucleon modes∆B = 2 dinucleon modes
The following are lifetime limits per iron nucleus.
pp → π+π+ > 72.2 90% –pn → π+π0 > 170 90% –nn → π+π− > 0.7 90% –nn → π0π0 > 404 90% –pp → K+K+ > 170 90% –pp → e+ e+ > 5.8 90% –pp → e+µ+ > 3.6 90% –pp → µ+µ+ > 1.7 90% –pn → e+ ν > 260 90% –pn → µ+ ν > 200 90% –pn → τ+ντ > 29 90% –nn → νe νe > 1.4 90% –nn → νµ νµ > 1.4 90% –
pn → invisible > 2.1× 10−5 90% –pp → invisible > 5× 10−5 90% –
p DECAY MODESp DECAY MODESp DECAY MODESp DECAY MODES
Partial mean life p
p DECAY MODES (years) Confidence level (MeV/c)
p → e−γ > 7× 105 90% 469
p → µ−γ > 5× 104 90% 463
p → e−π0 > 4× 105 90% 459
p → µ−π0 > 5× 104 90% 453
p → e−η > 2× 104 90% 309
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p → µ−η > 8× 103 90% 297
p → e−K0S > 900 90% 337
p → µ−K0S > 4× 103 90% 326
p → e−K0L > 9× 103 90% 337
p → µ−K0L > 7× 103 90% 326
p → e−γ γ > 2× 104 90% 469
p → µ−γ γ > 2× 104 90% 463
p → e−ω > 200 90% 143
nnnn I (JP ) = 12 (
12+)
Mass m = 1.0086649159 ± 0.0000000005 u
Mass m = 939.565413 ± 0.000006 MeV [a]
(mn − mn )/ mn = (9 ± 6)× 10−5
mn − mp = 1.2933321 ± 0.0000005 MeV
= 0.00138844919(45) u
Mean life τ = 879.4 ± 0.6 s (S = 1.6)
cτ = 2.6362× 108 km
Magnetic moment µ = −1.9130427 ± 0.0000005 µNElectric dipole moment d < 0.18× 10−25 e cm, CL = 90%
Mean-square charge radius⟨
r2n
⟩
= −0.1161 ± 0.0022
fm2 (S = 1.3)
Magnetic radius√
⟨
r2M
⟩
= 0.864+0.009−0.008 fm
Electric polarizability α = (11.8 ± 1.1)× 10−4 fm3
Magnetic polarizability β = (3.7 ± 1.2)× 10−4 fm3
Charge q = (−0.2 ± 0.8)× 10−21 e
Mean nn-oscillation time > 8.6× 107 s, CL = 90% (free n)
Mean nn-oscillation time > 2.7×108 s, CL = 90% [g ] (bound n)
Mean nn′-oscillation time > 448 s, CL = 90% [h]
pe− νe decay parameterspe− νe decay parameterspe− νe decay parameterspe− νe decay parameters [i ]
λ ≡ gA / gV = −1.2756 ± 0.0013 (S = 2.6)
A = −0.11958 ± 0.00021 (S = 1.2)
B = 0.9807 ± 0.0030
C = −0.2377 ± 0.0026
a = −0.1059 ± 0.0028
φAV = (180.017 ± 0.026) [j ]
D = (−1.2 ± 2.0)× 10−4 [k]
R = 0.004 ± 0.013 [k]
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p
n DECAY MODESn DECAY MODESn DECAY MODESn DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
pe− νe 100 % 1
pe− νe γ [l] ( 9.2±0.7)× 10−3 1
hydrogen-atom νe < 2.7 × 10−3 95% 1.19
Charge conservation (Q) violating modeCharge conservation (Q) violating modeCharge conservation (Q) violating modeCharge conservation (Q) violating mode
pνe νe Q < 8 × 10−27 68% 1
N(1440) 1/2+N(1440) 1/2+N(1440) 1/2+N(1440) 1/2+ I (JP ) = 12 (
12+)
Re(pole position) = 1360 to 1380 (≈ 1370) MeV
−2Im(pole position) = 160 to 190 (≈ 175) MeV
Breit-Wigner mass = 1410 to 1470 (≈ 1440) MeV
Breit-Wigner full width = 250 to 450 (≈ 350) MeV
N(1440) DECAY MODESN(1440) DECAY MODESN(1440) DECAY MODESN(1440) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 55–75 % 398
N η <1 % †
N ππ 17–50 % 347
∆(1232)π , P-wave 6–27 % 147
N σ 11–23 % –pγ , helicity=1/2 0.035–0.048 % 414
nγ , helicity=1/2 0.02–0.04 % 413
N(1520) 3/2−N(1520) 3/2−N(1520) 3/2−N(1520) 3/2− I (JP ) = 12 (
32−)
Re(pole position) = 1505 to 1515 (≈ 1510) MeV
−2Im(pole position) = 105 to 120 (≈ 110) MeV
Breit-Wigner mass = 1510 to 1520 (≈ 1515) MeV
Breit-Wigner full width = 100 to 120 (≈ 110) MeV
N(1520) DECAY MODESN(1520) DECAY MODESN(1520) DECAY MODESN(1520) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 55–65 % 453
N η 0.07–0.09 % 142
N ππ 25–35 % 410
∆(1232)π 22–34 % 225
∆(1232)π , S-wave 15–23 % 225
∆(1232)π , D-wave 7–11 % 225
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N σ < 2 % –pγ 0.31–0.52 % 467
pγ , helicity=1/2 0.01–0.02 % 467
pγ , helicity=3/2 0.30–0.50 % 467
nγ 0.30–0.53 % 466
nγ , helicity=1/2 0.04–0.10 % 466
nγ , helicity=3/2 0.25–0.45 % 466
N(1535) 1/2−N(1535) 1/2−N(1535) 1/2−N(1535) 1/2− I (JP ) = 12 (
12−)
Re(pole position) = 1500 to 1520 (≈ 1510) MeV
−2Im(pole position) = 110 to 150 (≈ 130) MeV
Breit-Wigner mass = 1515 to 1545 (≈ 1530) MeV
Breit-Wigner full width = 125 to 175 (≈ 150) MeV
N(1535) DECAY MODESN(1535) DECAY MODESN(1535) DECAY MODESN(1535) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 32–52 % 464
N η 30–55 % 176
N ππ 3–14 % 422
∆(1232)π , D-wave 1–4 % 240
N σ 2–10 % –N(1440)π 5–12 % †
pγ , helicity=1/2 0.15–0.30 % 477
nγ , helicity=1/2 0.01–0.25 % 477
N(1650) 1/2−N(1650) 1/2−N(1650) 1/2−N(1650) 1/2− I (JP ) = 12 (
12−)
Re(pole position) = 1640 to 1670 (≈ 1655) MeV
−2Im(pole position) = 100 to 170 (≈ 135) MeV
Breit-Wigner mass = 1635 to 1665 (≈ 1650) MeV
Breit-Wigner full width = 100 to 150 (≈ 125) MeV
N(1650) DECAY MODESN(1650) DECAY MODESN(1650) DECAY MODESN(1650) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 50–70 % 547
N η 15–35 % 348
ΛK 5–15 % 169
N ππ 8–36 % 514
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∆(1232)π , D-wave 6–18 % 345
N σ 2–18 % –N(1440)π 6–26 % 150
pγ , helicity=1/2 0.04–0.20 % 558
nγ , helicity=1/2 0.003–0.17 % 557
N(1675) 5/2−N(1675) 5/2−N(1675) 5/2−N(1675) 5/2− I (JP ) = 12 (
52−)
Re(pole position) = 1655 to 1665 (≈ 1660) MeV
−2Im(pole position) = 125 to 150 (≈ 135) MeV
Breit-Wigner mass = 1665 to 1680 (≈ 1675) MeV
Breit-Wigner full width = 130 to 160 (≈ 145) MeV
N(1675) DECAY MODESN(1675) DECAY MODESN(1675) DECAY MODESN(1675) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 38–42 % 564
N η < 1 % 376
N ππ 25–45 % 532
∆(1232)π , D-wave 23–37 % 366
N σ 3–7 % –pγ 0–0.02 % 575
pγ , helicity=1/2 0–0.01 % 575
pγ , helicity=3/2 0–0.01 % 575
nγ 0–0.15 % 574
nγ , helicity=1/2 0–0.05 % 574
nγ , helicity=3/2 0–0.10 % 574
N(1680) 5/2+N(1680) 5/2+N(1680) 5/2+N(1680) 5/2+ I (JP ) = 12 (
52+)
Re(pole position) = 1665 to 1680 (≈ 1675) MeV
−2Im(pole position) = 110 to 135 (≈ 120) MeV
Breit-Wigner mass = 1680 to 1690 (≈ 1685) MeV
Breit-Wigner full width = 115 to 130 (≈ 120) MeV
N(1680) DECAY MODESN(1680) DECAY MODESN(1680) DECAY MODESN(1680) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 60–70 % 571
N η <1 % 386
N ππ 20–40 % 539
∆(1232)π 11–23 % 374
∆(1232)π , P-wave 4–10 % 374
∆(1232)π , F-wave 1–13 % 374
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N σ 9–19 % –pγ 0.21–0.32 % 581
pγ , helicity=1/2 0.001–0.011 % 581
pγ , helicity=3/2 0.20–0.32 % 581
nγ 0.021–0.046 % 581
nγ , helicity=1/2 0.004–0.029 % 581
nγ , helicity=3/2 0.01–0.024 % 581
N(1700) 3/2−N(1700) 3/2−N(1700) 3/2−N(1700) 3/2− I (JP ) = 12 (
32−)
Re(pole position) = 1650 to 1750 (≈ 1700) MeV
−2Im(pole position) = 100 to 300 (≈ 200) MeV
Breit-Wigner mass = 1650 to 1800 (≈ 1720) MeV
Breit-Wigner full width = 100 to 300 (≈ 200) MeV
N(1700) DECAY MODESN(1700) DECAY MODESN(1700) DECAY MODESN(1700) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 7–17 % 594
N η seen 422
Nω 10–34 % †
N ππ 60–90 % 564
∆(1232)π 55–85 % 402
∆(1232)π , S-wave 50–80 % 402
∆(1232)π , D-wave 4–14 % 402
N(1440)π 3–11 % 225
N(1520)π <4 % 145
N ρ , S=3/2, S-wave 32–44 % 74
N σ 2–14 % –pγ 0.01–0.05 % 604
pγ , helicity=1/2 0.0–0.024 % 604
pγ , helicity=3/2 0.002–0.026 % 604
nγ 0.01–0.13 % 603
nγ , helicity=1/2 0.0–0.09 % 603
nγ , helicity=3/2 0.01–0.05 % 603
N(1710) 1/2+N(1710) 1/2+N(1710) 1/2+N(1710) 1/2+ I (JP ) = 12 (
12+)
Re(pole position) = 1680 to 1720 (≈ 1700) MeV
−2Im(pole position) = 80 to 160 (≈ 120) MeV
Breit-Wigner mass = 1680 to 1740 (≈ 1710) MeV
Breit-Wigner full width = 80 to 200 (≈ 140) MeV
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N(1710) DECAY MODESN(1710) DECAY MODESN(1710) DECAY MODESN(1710) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 5–20 % 588
N η 10–50 % 412
Nω 1–5 % †
ΛK 5–25 % 269
Σ K seen 138
N ππ seen 557
∆(1232)π , P-wave 3–9 % 394
N(1535)π 9–21 % 113
N ρ , S=1/2, P-wave 11–23 % †
pγ , helicity=1/2 0.002–0.08 % 598
nγ , helicity=1/2 0.0–0.02% 597
N(1720) 3/2+N(1720) 3/2+N(1720) 3/2+N(1720) 3/2+ I (JP ) = 12 (
32+)
Re(pole position) = 1660 to 1690 (≈ 1675) MeV
−2Im(pole position) = 150 to 400 (≈ 250) MeV
Breit-Wigner mass = 1680 to 1750 (≈ 1720) MeV
Breit-Wigner full width = 150 to 400 (≈ 250) MeV
N(1720) DECAY MODESN(1720) DECAY MODESN(1720) DECAY MODESN(1720) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 8–14 % 594
N η 1–5 % 422
Nω 12–40 % †
ΛK 4–5 % 283
N ππ 50–90 % 564
∆(1232)π 47–89 % 402
∆(1232)π , P-wave 47–77 % 402
∆(1232)π , F-wave <12 % 402
N ρ , S=1/2, P-wave 1–2 % 74
N σ 2–14 % –N(1440)π <2 % 225
N(1520)π , S-wave 1–5 % 145
pγ 0.05–0.25 % 604
pγ , helicity=1/2 0.05–0.15 % 604
pγ , helicity=3/2 0.002–0.16 % 604
nγ 0.0–0.016 % 603
nγ , helicity=1/2 0.0–0.01 % 603
nγ , helicity=3/2 0.0–0.015 % 603
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N(1875) 3/2−N(1875) 3/2−N(1875) 3/2−N(1875) 3/2− I (JP ) = 12 (
32−)
Re(pole position) = 1850 to 1950 (≈ 1900) MeV−2Im(pole position) = 100 to 220 (≈ 160) MeVBreit-Wigner mass = 1850 to 1920 (≈ 1875) MeVBreit-Wigner full width = 120 to 250 (≈ 200) MeV
N(1875) DECAY MODESN(1875) DECAY MODESN(1875) DECAY MODESN(1875) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 3–11 % 695
N η <1 % 559
Nω 15–25 % 371
ΛK seen 454
Σ K seen 384
N ππ 670
∆(1232)π 10–35 % 520
∆(1232)π , S-wave 7–21 % 520
∆(1232)π , D-wave 2–12 % 520
N ρ , S=3/2, S-wave seen 379
N σ 30–60 % –N(1440)π 2–8 % 365
N(1520)π <2 % 301
pγ 0.001–0.025 % 703
pγ , helicity=1/2 0.001–0.021 % 703
pγ , helicity=3/2 <0.003 % 703
nγ <0.040 % 702
nγ , helicity=1/2 <0.007 % 702
nγ , helicity=3/2 <0.033 % 702
N(1880) 1/2+N(1880) 1/2+N(1880) 1/2+N(1880) 1/2+ I (JP ) = 12 (
12+)
Re(pole position) = 1820 to 1900 (≈ 1860) MeV−2Im(pole position) = 180 to 280 (≈ 230) MeVBreit-Wigner mass = 1830 to 1930 (≈ 1880) MeVBreit-Wigner full width = 200 to 400 (≈ 300) MeV
N(1880) DECAY MODESN(1880) DECAY MODESN(1880) DECAY MODESN(1880) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 3–9 % 698
N η 5–55 % 563
Nω 12–28 % 377
ΛK 12–28 % 459
Σ K 10–24 % 389
N ππ 30–80 % 673
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∆(1232)π 18–42 % 524
N σ 10–40 % 539
N(1535)π 4–12 % 293
N a0(980) 1–5 % †
ΛK∗(892) 0.5–1 % †
pγ , helicity=1/2 seen 706
nγ , helicity=1/2 0.002–0.63 % 705
N(1895) 1/2−N(1895) 1/2−N(1895) 1/2−N(1895) 1/2− I (JP ) = 12 (
12−)
Re(pole position) = 1890 to 1930 (≈ 1910) MeV
−2Im(pole position) = 80 to 140 (≈ 110) MeV
Breit-Wigner mass = 1870 to 1920 (≈ 1895) MeV
Breit-Wigner full width = 80 to 200 (≈ 120) MeV
N(1895) DECAY MODESN(1895) DECAY MODESN(1895) DECAY MODESN(1895) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 2–18 % 707
N η 15–40 % 575
N η′ 10–40 % †
Nω 16–40 % 395
ΛK 13–23 % 473
Σ K 6–20 % 405
∆(1232)π , D-wave 3–11 % 535
N ρ , S=1/2, S-wave seen 403
N ρ , S=3/2, D-wave 3–12 % 403
ΛK∗(892) 4–9 % †
N σ seen –N(1440)π 1–4 % 382
pγ , helicity=1/2 0.01–0.06 % 715
nγ , helicity=1/2 0.003–0.05 % 715
N(1900) 3/2+N(1900) 3/2+N(1900) 3/2+N(1900) 3/2+ I (JP ) = 12 (
32+)
Re(pole position) = 1900 to 1940 (≈ 1920) MeV
−2Im(pole position) = 100 to 200 (≈ 150) MeV
Breit-Wigner mass = 1890 to 1950 (≈ 1920) MeV
Breit-Wigner full width = 100 to 320 (≈ 200) MeV
N(1900) DECAY MODESN(1900) DECAY MODESN(1900) DECAY MODESN(1900) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 1–20 % 723
N η 2–14 % 595
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N η′ 4–8 % 151
Nω 7–13 % 424
ΛK 2–20 % 495
Σ K 3–7 % 431
N ππ 40–80 % 699
∆(1232)π 30–70 % 553
∆(1232)π , P-wave 9–25 % 553
∆(1232)π , F-wave 21–45 % 553
ΛK∗(892) < 0.2 % †
N σ 1–7 % –N(1520)π 7–23 % 341
N(1535)π 4–10 % 328
pγ 0.001–0.025 % 731
pγ , helicity=1/2 0.001–0.021 % 731
pγ , helicity=3/2 <0.003 % 731
nγ <0.040 % 730
nγ , helicity=1/2 <0.007 % 730
nγ , helicity=3/2 <0.033 % 730
N(2060) 5/2−N(2060) 5/2−N(2060) 5/2−N(2060) 5/2− I (JP ) = 12 (
52−)
Re(pole position) = 2020 to 2130 (≈ 2070) MeV
−2Im(pole position) = 350 to 430 (≈ 400) MeV
Breit-Wigner mass = 2030 to 2200 (≈ 2100) MeV
Breit-Wigner full width = 300 to 450 (≈ 400) MeV
N(2060) DECAY MODESN(2060) DECAY MODESN(2060) DECAY MODESN(2060) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 7–12 % 834
N η 2–6 % 729
Nω 1–7 % 600
ΛK seen 644
Σ K 1–5 % 593
N ππ 7–19 % 814
∆(1232)π , D-wave 4–10 % 680
N ρ , S=1/2, P-wave seen 605
ΛK∗(892) 0.3–1.3 % 307
N σ 3–9 % –N(1440)π 4–14 % 544
N(1520)π , P-wave 9–21 % 490
N(1680)π , S-wave 8–22 % 353
pγ 0.03–0.19 % 840
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pγ , helicity=1/2 0.02–0.08 % 840
pγ , helicity=3/2 0.01–0.10 % 840
nγ 0.003–0.07 % 840
nγ , helicity=1/2 0.001–0.02 % 840
nγ , helicity=3/2 0.002–0.05 % 840
N(2100) 1/2+N(2100) 1/2+N(2100) 1/2+N(2100) 1/2+ I (JP ) = 12 (
12+)
Re(pole position) = 2050 to 2150 (≈ 2100) MeV
−2Im(pole position) = 240 to 340 (≈ 300) MeV
Breit-Wigner mass = 2050 to 2150 (≈ 2100) MeV
Breit-Wigner full width = 200 to 320 (≈ 260) MeV
N(2100) DECAY MODESN(2100) DECAY MODESN(2100) DECAY MODESN(2100) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 8–18 % 834
N η seen 729
N η′ 5–11 % 451
Nω 10–25 % 600
ΛK seen 644
N ππ 20–40 % 814
∆(1232)π , P-wave 6–14 % 680
N ρ , S=1/2, P-wave seen 605
ΛK∗(892) 3–11 % 307
N σ 14–26 % –N(1535)π 26–34 % 478
N γ , helicity=1/2 0.001–0.012 % 840
N(2120) 3/2−N(2120) 3/2−N(2120) 3/2−N(2120) 3/2− I (JP ) = 12 (
32−)
Re(pole position) = 2050 to 2150 (≈ 2100) MeV
−2Im(pole position) = 200 to 360 (≈ 280) MeV
Breit-Wigner mass = 2060 to 2160 (≈ 2120) MeV
Breit-Wigner full width = 260 to 360 (≈ 300) MeV
N(2120) DECAY MODESN(2120) DECAY MODESN(2120) DECAY MODESN(2120) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 5–15 % 846
N η′ 2–6 % 474
Nω 4–20 % 617
N ππ 50–95 % 827
∆(1232)π 40–90 % 693
∆(1232)π , S-wave 30–70 % 693
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∆(1232)π , D-wave 8–32 % 693
ΛK∗(892) < 0.2 % 339
N σ 7–15 % –N(1535)π 7–23 % 494
pγ 0.16–2.1 % 852
pγ , helicity=1/2 0.07–0.80 % 852
pγ , helicity=3/2 0.09–1.3 % 852
nγ 0.04–0.72 % 852
nγ , helicity=1/2 0.04–0.60 % 852
nγ , helicity=3/2 0.001–0.12 % 852
N(2190) 7/2−N(2190) 7/2−N(2190) 7/2−N(2190) 7/2− I (JP ) = 12 (
72−)
Re(pole position) = 2050 to 2150 (≈ 2100) MeV
−2Im(pole position) = 300 to 500 (≈ 400) MeV
Breit-Wigner mass = 2140 to 2220 (≈ 2180) MeV
Breit-Wigner full width = 300 to 500 (≈ 400) MeV
N(2190) DECAY MODESN(2190) DECAY MODESN(2190) DECAY MODESN(2190) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 10–20 % 882
N η 1–3 % 785
Nω 8–20 % 667
∆(1232)π , D-wave 19–31 % 734
N ρ , S=3/2, D-wave seen 672
ΛK∗(892) 0.2–0.8 % 423
N σ 3–9 % –pγ 0.014–0.077 % 888
nγ <0.04 % 888
nγ , helicity=3/2 <0.03 % 888
N(2220) 9/2+N(2220) 9/2+N(2220) 9/2+N(2220) 9/2+ I (JP ) = 12 (
92+)
Re(pole position) = 2130 to 2200 (≈ 2170) MeV
−2Im(pole position) = 360 to 480 (≈ 400) MeV
Breit-Wigner mass = 2200 to 2300 (≈ 2250) MeV
Breit-Wigner full width = 350 to 500 (≈ 400) MeV
N(2220) DECAY MODESN(2220) DECAY MODESN(2220) DECAY MODESN(2220) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 15–30 % 924
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N(2250) 9/2−N(2250) 9/2−N(2250) 9/2−N(2250) 9/2− I (JP ) = 12 (
92−)
Re(pole position) = 2150 to 2250 (≈ 2200) MeV
−2Im(pole position) = 350 to 500 (≈ 420) MeV
Breit-Wigner mass = 2250 to 2320 (≈ 2280) MeV
Breit-Wigner full width = 300 to 600 (≈ 500) MeV
N(2250) DECAY MODESN(2250) DECAY MODESN(2250) DECAY MODESN(2250) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 0.05 to 0.15 (≈ 0.10) 941
N(2600) 11/2−N(2600) 11/2−N(2600) 11/2−N(2600) 11/2− I (JP ) = 12 (
112−)
Breit-Wigner mass = 2550 to 2750 (≈ 2600) MeV
Breit-Wigner full width = 500 to 800 (≈ 650) MeV
N(2600) DECAY MODESN(2600) DECAY MODESN(2600) DECAY MODESN(2600) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 3–8 % 1126
∆BARYONS∆BARYONS∆BARYONS∆BARYONS(S= 0, I= 3/2)(S= 0, I= 3/2)(S= 0, I= 3/2)(S= 0, I= 3/2)
∆++ = uuu, ∆+ = uud, ∆0 = udd, ∆− = ddd
∆(1232) 3/2+∆(1232) 3/2+∆(1232) 3/2+∆(1232) 3/2+ I (JP ) = 32 (
32+)
Re(pole position) = 1209 to 1211 (≈ 1210) MeV
−2Im(pole position) = 98 to 102 (≈ 100) MeV
Breit-Wigner mass (mixed charges) = 1230 to 1234 (≈ 1232)
MeV
Breit-Wigner full width (mixed charges) = 114 to 120 (≈ 117)
MeV
∆(1232) DECAY MODES∆(1232) DECAY MODES∆(1232) DECAY MODES∆(1232) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 99.4 % 229
N γ 0.55–0.65 % 259
N γ , helicity=1/2 0.11–0.13 % 259
N γ , helicity=3/2 0.44–0.52 % 259
pe+ e− ( 4.2±0.7)× 10−5 259
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∆(1600) 3/2+∆(1600) 3/2+∆(1600) 3/2+∆(1600) 3/2+ I (JP ) = 32 (
32+)
Re(pole position) = 1460 to 1560 (≈ 1510) MeV
−2Im(pole position) = 200 to 340 (≈ 270) MeV
Breit-Wigner mass = 1500 to 1640 (≈ 1570) MeV
Breit-Wigner full width = 200 to 300 (≈ 250) MeV
∆(1600) DECAY MODES∆(1600) DECAY MODES∆(1600) DECAY MODES∆(1600) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 8–24 % 492
N ππ 75–90 % 454
∆(1232)π 73–83 % 276
∆(1232)π , P-wave 72–82 % 276
∆(1232)π , F-wave <2 % 276
N(1440)π , P-wave 15–25 % †
N γ 0.001–0.035 % 505
N γ , helicity=1/2 0.0–0.02 % 505
N γ , helicity=3/2 0.001–0.015 % 505
∆(1620) 1/2−∆(1620) 1/2−∆(1620) 1/2−∆(1620) 1/2− I (JP ) = 32 (
12−)
Re(pole position) = 1590 to 1610 (≈ 1600) MeV
−2Im(pole position) = 100 to 140 (≈ 120) MeV
Breit-Wigner mass = 1590 to 1630 (≈ 1610) MeV
Breit-Wigner full width = 110 to 150 (≈ 130) MeV
∆(1620) DECAY MODES∆(1620) DECAY MODES∆(1620) DECAY MODES∆(1620) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 25–35 % 520
N ππ 55–80 % 484
∆(1232)π , D-wave 52–72 % 311
N ρ , S=1/2, S-wave seen †
N ρ , S=3/2, D-wave seen †
N(1440)π 3–9 % 98
N γ , helicity=1/2 0.03–0.10 % 532
∆(1700) 3/2−∆(1700) 3/2−∆(1700) 3/2−∆(1700) 3/2− I (JP ) = 32 (
32−)
Re(pole position) = 1640 to 1690 (≈ 1665) MeV
−2Im(pole position) = 200 to 300 (≈ 250) MeV
Breit-Wigner mass = 1690 to 1730 (≈ 1710) MeV
Breit-Wigner full width = 220 to 380 (≈ 300) MeV
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∆(1700) DECAY MODES∆(1700) DECAY MODES∆(1700) DECAY MODES∆(1700) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 10–20 % 588
N ππ 10–55 % 557
∆(1232)π 10–50 % 394
∆(1232)π , S-wave 5–35 % 394
∆(1232)π , D-wave 4–16 % 394
N ρ , S=3/2, S-wave seen †
N(1520)π , P-wave 1–5 % 133
N(1535)π 0.5–1.5 % 113
∆(1232)η 3–7 % †
N γ 0.22–0.60 % 598
N γ , helicity=1/2 0.12–0.30 % 598
N γ , helicity=3/2 0.10–0.30 % 598
∆(1900) 1/2−∆(1900) 1/2−∆(1900) 1/2−∆(1900) 1/2− I (JP ) = 32 (
12−)
Re(pole position) = 1830 to 1900 (≈ 1865) MeV
−2Im(pole position) = 180 to 300 (≈ 240) MeV
Breit-Wigner mass = 1840 to 1920 (≈ 1860) MeV
Breit-Wigner full width = 180 to 320 (≈ 250) MeV
∆(1900) DECAY MODES∆(1900) DECAY MODES∆(1900) DECAY MODES∆(1900) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 4–12 % 685
Σ K seen 367
N ππ 45–85 % 660
∆(1232)π , D-wave 30–70 % 509
N ρ , S=1/2, S-wave 8–16 % 360
N ρ , S=3/2, D-wave 18–28 % 360
N(1440)π 8–32 % 353
N(1520)π 2–10 % 288
∆(1232)η 0–2 % 251
N γ , helicity=1/2 0.06–0.43 % 693
∆(1905) 5/2+∆(1905) 5/2+∆(1905) 5/2+∆(1905) 5/2+ I (JP ) = 32 (
52+)
Re(pole position) = 1770 to 1830 (≈ 1800) MeV
−2Im(pole position) = 260 to 340 (≈ 300) MeV
Breit-Wigner mass = 1855 to 1910 (≈ 1880) MeV
Breit-Wigner full width = 270 to 400 (≈ 330) MeV
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∆(1905) DECAY MODES∆(1905) DECAY MODES∆(1905) DECAY MODES∆(1905) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 9–15 % 698
N ππ 673
∆(1232)π 80–100 % 524
∆(1232)π , P-wave 23–43 % 524
∆(1232)π , F-wave 56–72 % 524
N ρ , S=3/2, P-wave seen 385
N(1535)π < 1 % 293
N(1680)π , P-wave 5–15 % 133
∆(1232)η 2–6 % 282
N γ 0.012–0.036 % 706
N γ , helicity=1/2 0.002–0.006 % 706
N γ , helicity=3/2 0.01–0.03 % 706
∆(1910) 1/2+∆(1910) 1/2+∆(1910) 1/2+∆(1910) 1/2+ I (JP ) = 32 (
12+)
Re(pole position) = 1830 to 1890 (≈ 1860) MeV
−2Im(pole position) = 200 to 400 (≈ 300) MeV
Breit-Wigner mass = 1850 to 1950 (≈ 1900) MeV
Breit-Wigner full width = 200 to 400 (≈ 300) MeV
∆(1910) DECAY MODES∆(1910) DECAY MODES∆(1910) DECAY MODES∆(1910) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 15–30 % 710
Σ K 4–14 % 410
N ππ 686
∆(1232)π 34–66 % 539
N(1440)π 3–9 % 386
∆(1232)η 5–13 % 310
N γ , helicity=1/2 0.0–0.02 % 718
∆(1920) 3/2+∆(1920) 3/2+∆(1920) 3/2+∆(1920) 3/2+ I (JP ) = 32 (
32+)
Re(pole position) = 1850 to 1950 (≈ 1900) MeV
−2Im(pole position) = 200 to 400 (≈ 300) MeV
Breit-Wigner mass = 1870 to 1970 (≈ 1920) MeV
Breit-Wigner full width = 240 to 360 (≈ 300) MeV
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∆(1920) DECAY MODES∆(1920) DECAY MODES∆(1920) DECAY MODES∆(1920) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 5–20 % 723
Σ K 2–6 % 431
N ππ 699
∆(1232)π 50–90 % 553
∆(1232)π , P-wave 8–28 % 553
∆(1232)π , F-wave 44–72 % 553
N(1440)π , P-wave <4 % 403
N(1520)π , S-wave <5 % 341
N(1535)π <2 % 328
N a0(980) seen 41
∆(1232)η 5–17 % 336
∆(1930) 5/2−∆(1930) 5/2−∆(1930) 5/2−∆(1930) 5/2− I (JP ) = 32 (
52−)
Re(pole position) = 1840 to 1920 (≈ 1880) MeV
−2Im(pole position) = 230 to 330 (≈ 280) MeV
Breit-Wigner mass = 1900 to 2000 (≈ 1950) MeV
Breit-Wigner full width = 200 to 400 (≈ 300) MeV
∆(1930) DECAY MODES∆(1930) DECAY MODES∆(1930) DECAY MODES∆(1930) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 5–15 % 742
N γ 0.0–0.01 % 749
N γ , helicity=1/2 0.0–0.005 % 749
N γ , helicity=3/2 0.0–0.004 % 749
∆(1950) 7/2+∆(1950) 7/2+∆(1950) 7/2+∆(1950) 7/2+ I (JP ) = 32 (
72+)
Re(pole position) = 1870 to 1890 (≈ 1880) MeV
−2Im(pole position) = 220 to 260 (≈ 240) MeV
Breit-Wigner mass = 1915 to 1950 (≈ 1930) MeV
Breit-Wigner full width = 235 to 335 (≈ 285) MeV
∆(1950) DECAY MODES∆(1950) DECAY MODES∆(1950) DECAY MODES∆(1950) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 35–45 % 729
Σ K 0.3–0.5 % 441
N ππ 706
∆(1232)π , F-wave 1–9 % 560
N(1680)π , P-wave 3–9 % 191
∆(1232)η < 0.6 % 349
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∆(2200) 7/2−∆(2200) 7/2−∆(2200) 7/2−∆(2200) 7/2− I (JP ) = 32 (
72−)
Re(pole position) = 2050 to 2150 (≈ 2100) MeV
−2Im(pole position) = 260 to 420 (≈ 340) MeV
Breit-Wigner mass = 2150 to 2250 (≈ 2200) MeV
Breit-Wigner full width = 200 to 500 (≈ 350) MeV
∆(2200) DECAY MODES∆(2200) DECAY MODES∆(2200) DECAY MODES∆(2200) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 2–8 % 894
Σ K 1–7 % 672
∆π , D-wave 40–100 % 747
∆π , G-wave 5–25 % 747
∆η , D-wave seen 614
∆(2420) 11/2+∆(2420) 11/2+∆(2420) 11/2+∆(2420) 11/2+ I (JP ) = 32 (
112+)
Re(pole position) = 2300 to 2500 (≈ 2400) MeV
−2Im(pole position) = 350 to 550 (≈ 450) MeV
Breit-Wigner mass = 2300 to 2600 (≈ 2450) MeV
Breit-Wigner full width = 300 to 700 (≈ 500) MeV
∆(2420) DECAY MODES∆(2420) DECAY MODES∆(2420) DECAY MODES∆(2420) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
N π 5–10 % 1040
Λ BARYONSΛ BARYONSΛ BARYONSΛ BARYONS(S = −1, I = 0)(S = −1, I = 0)(S = −1, I = 0)(S = −1, I = 0)
Λ0 = uds
ΛΛΛΛ I (JP ) = 0(12+)
Mass m = 1115.683 ± 0.006 MeV
(mΛ − mΛ)/
mΛ = (−0.1 ± 1.1)× 10−5 (S = 1.6)
Mean life τ = (2.632 ± 0.020)× 10−10 s (S = 1.6)
(τ Λ − τΛ) / τ Λ = −0.001 ± 0.009
cτ = 7.89 cm
Magnetic moment µ = −0.613 ± 0.004 µNElectric dipole moment d < 1.5× 10−16 e cm, CL = 95%
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Decay parametersDecay parametersDecay parametersDecay parameters
pπ− α− = 0.732 ± 0.014 (S = 2.3)
pπ+ α+ = −0.758 ± 0.012
α0 FOR Λ → nπ0 = −0.692 ± 0.017
pπ− φ− = (−6.5 ± 3.5)
" γ− = 0.76 [n]
" ∆− = (8 ± 4) [n]
α0 / α+ in Λ → nπ0, Λ → pπ+ = 0.913 ± 0.030
R =∣
∣GE/GM
∣
∣ in Λ → pπ−, Λ → pπ+ = 0.96 ± 0.14
∆Φ = ΦE − ΦM in Λ → pπ−, Λ → pπ+ = 37 ± 13 degrees
nπ0 α0 = 0.74 ± 0.05
pe− νe gA/gV = −0.718 ± 0.015 [i ]
p
Λ DECAY MODESΛ DECAY MODESΛ DECAY MODESΛ DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
pπ− (63.9 ±0.5 ) % 101
nπ0 (35.8 ±0.5 ) % 104
nγ ( 1.75±0.15)× 10−3 162
pπ−γ [o] ( 8.4 ±1.4 )× 10−4 101
pe− νe ( 8.32±0.14)× 10−4 163
pµ− νµ ( 1.57±0.35)× 10−4 131
Lepton (L) and/or Baryon (B) number violating decay modesLepton (L) and/or Baryon (B) number violating decay modesLepton (L) and/or Baryon (B) number violating decay modesLepton (L) and/or Baryon (B) number violating decay modes
π+ e− L,B < 6 × 10−7 90% 549
π+µ− L,B < 6 × 10−7 90% 544
π− e+ L,B < 4 × 10−7 90% 549
π−µ+ L,B < 6 × 10−7 90% 544
K+ e− L,B < 2 × 10−6 90% 449
K+µ− L,B < 3 × 10−6 90% 441
K− e+ L,B < 2 × 10−6 90% 449
K−µ+ L,B < 3 × 10−6 90% 441
K0S ν L,B < 2 × 10−5 90% 447
pπ+ B < 9 × 10−7 90% 101
Λ(1405) 1/2−Λ(1405) 1/2−Λ(1405) 1/2−Λ(1405) 1/2− I (JP ) = 0(12−)
Mass m = 1405.1+1.3−1.0 MeV
Full width Γ = 50.5 ± 2.0 MeV
Below K N threshold
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Λ(1405) DECAY MODESΛ(1405) DECAY MODESΛ(1405) DECAY MODESΛ(1405) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Σ π 100 % 155
Λ(1520) 3/2−Λ(1520) 3/2−Λ(1520) 3/2−Λ(1520) 3/2− I (JP ) = 0(32−)
Mass m = 1518 to 1520 (≈ 1519) MeV [p]
Full width Γ = 15 to 17 (≈ 16) MeV [p]
Λ(1520) DECAY MODESΛ(1520) DECAY MODESΛ(1520) DECAY MODESΛ(1520) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK (45 ±1 ) % 242
Σ π (42 ±1 ) % 268
Λππ (10 ±1 ) % 259
Σ ππ ( 0.9 ±0.1 ) % 168
Λγ ( 0.85±0.15) % 350
Λ(1600) 1/2+Λ(1600) 1/2+Λ(1600) 1/2+Λ(1600) 1/2+ I (JP ) = 0(12+)
Mass m = 1570 to 1630 (≈ 1600) MeVFull width Γ = 150 to 250 (≈ 200) MeV
Λ(1600) DECAY MODESΛ(1600) DECAY MODESΛ(1600) DECAY MODESΛ(1600) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 15–30 % 343
Σ π 10–60 % 338
Λσ (19±4) % –Σ (1385)π ( 9±4) % 158
Λ(1670) 1/2−Λ(1670) 1/2−Λ(1670) 1/2−Λ(1670) 1/2− I (JP ) = 0(12−)
Mass m = 1670 to 1678 (≈ 1674) MeVFull width Γ = 25 to 35 (≈ 30) MeV
Λ(1670) DECAY MODESΛ(1670) DECAY MODESΛ(1670) DECAY MODESΛ(1670) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 20–30 % 418
Σ π 25–55 % 398
Λη 10–25 % 88
Σ (1385)π , D-wave ( 6.0±2.0) % 235
NK∗(892), S=3/2, D-wave ( 5 ±4 ) % †
Λσ (20 ±8 ) % –
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Λ(1690) 3/2−Λ(1690) 3/2−Λ(1690) 3/2−Λ(1690) 3/2− I (JP ) = 0(32−)
Mass m = 1685 to 1695 (≈ 1690) MeV
Full width Γ = 60 to 80 (≈ 70) MeV
Λ(1690) DECAY MODESΛ(1690) DECAY MODESΛ(1690) DECAY MODESΛ(1690) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 20–30 % 433
Σ π 20–40 % 410
Λσ (5.0±2.0) % –Λππ ∼ 25 % 419
Σ ππ ∼ 20 % 358
Σ (1385)π , S-wave (9 ±5 ) % 251
Σ (1385)π , D-wave (3.0±2.0) % 251
Λ(1800) 1/2−Λ(1800) 1/2−Λ(1800) 1/2−Λ(1800) 1/2− I (JP ) = 0(12−)
Mass m = 1750 to 1850 (≈ 1800) MeV
Full width Γ = 150 to 250 (≈ 200) MeV
Λ(1800) DECAY MODESΛ(1800) DECAY MODESΛ(1800) DECAY MODESΛ(1800) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 25–40 % 528
Σ π seen 494
Λσ (15 ±4) % –Σ (1385)π seen 349
Λη 0.01 to 0.10 326
NK∗(892) seen †
Λ(1810) 1/2+Λ(1810) 1/2+Λ(1810) 1/2+Λ(1810) 1/2+ I (JP ) = 0(12+)
Mass m = 1740 to 1840 (≈ 1790) MeV
Full width Γ = 50 to 170 (≈ 110) MeV
Λ(1810) DECAY MODESΛ(1810) DECAY MODESΛ(1810) DECAY MODESΛ(1810) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 0.05 to 0.35 520
Σ π (16 ± 5) % 487
Σ (1385)π (40 ±15) % 340
NK∗(892) 30–60 % †
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Λ(1820) 5/2+Λ(1820) 5/2+Λ(1820) 5/2+Λ(1820) 5/2+ I (JP ) = 0(52+)
Mass m = 1815 to 1825 (≈ 1820) MeVFull width Γ = 70 to 90 (≈ 80) MeV
Λ(1820) DECAY MODESΛ(1820) DECAY MODESΛ(1820) DECAY MODESΛ(1820) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 55–65 % 545
Σ π 8–14 % 509
Σ (1385)π 5–10 % 366
NK∗(892), S=3/2, P-wave (3.0±1.0) % †
Λ(1830) 5/2−Λ(1830) 5/2−Λ(1830) 5/2−Λ(1830) 5/2− I (JP ) = 0(52−)
Mass m = 1820 to 1830 (≈ 1825) MeVFull width Γ = 60 to 120 (≈ 90) MeV
p
Λ(1830) DECAY MODESΛ(1830) DECAY MODESΛ(1830) DECAY MODESΛ(1830) DECAY MODES Fraction (Γi /Γ) Scale factor (MeV/c)
NK 0.04 to 0.08 549
Σ π 35–75 % 512
Σ (1385)π >15 % 370
Σ (1385)π , D-wave (40 ±15) % 3.2 370
Λ(1890) 3/2+Λ(1890) 3/2+Λ(1890) 3/2+Λ(1890) 3/2+ I (JP ) = 0(32+)
Mass m = 1870 to 1910 (≈ 1890) MeVFull width Γ = 80 to 160 (≈ 120) MeV
Λ(1890) DECAY MODESΛ(1890) DECAY MODESΛ(1890) DECAY MODESΛ(1890) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 0.24 to 0.36 599
Σ π 3–10 % 560
Σ (1385)π seen 423
Σ (1385)π , P-wave (6.0 ±3.0) % 423
Σ (1385)π , F-wave (4.0 ±2.0) % 423
NK∗(892) seen 236
Λ(2100) 7/2−Λ(2100) 7/2−Λ(2100) 7/2−Λ(2100) 7/2− I (JP ) = 0(72−)
Mass m = 2090 to 2110 (≈ 2100) MeVFull width Γ = 100 to 250 (≈ 200) MeV
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Λ(2100) DECAY MODESΛ(2100) DECAY MODESΛ(2100) DECAY MODESΛ(2100) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 25–35 % 751
Σ π ∼ 5 % 705
Λη <3 % 617
Ξ K <3 % 491
Λω <8 % 443
NK∗(892) 10–20 % 515
Σ (1385)π , G-wave (1.0±1.0) % 584
NK ∗(892), S=3/2, D-wave (4.0±2.0) % 515
Λ(2110) 5/2+Λ(2110) 5/2+Λ(2110) 5/2+Λ(2110) 5/2+ I (JP ) = 0(52+)
Mass m = 2050 to 2130 (≈ 2090) MeV
Full width Γ = 200 to 300 (≈ 250) MeV
Λ(2110) DECAY MODESΛ(2110) DECAY MODESΛ(2110) DECAY MODESΛ(2110) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 5–25 % 744
Σ π 10–40 % 698
Λω seen 432
Λω , S=3/2 , P-wave (5.0±2.0) % 432
Σ (1385)π seen 576
NK∗(892) 10–60 % 505
Λ(2350) 9/2+Λ(2350) 9/2+Λ(2350) 9/2+Λ(2350) 9/2+ I (JP ) = 0(92+)
Mass m = 2340 to 2370 (≈ 2350) MeV
Full width Γ = 100 to 250 (≈ 150) MeV
Λ(2350) DECAY MODESΛ(2350) DECAY MODESΛ(2350) DECAY MODESΛ(2350) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK ∼ 12 % 915
Σ π ∼ 10 % 867
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Σ BARYONSΣ BARYONSΣ BARYONSΣ BARYONS(S=−1, I= 1)(S=−1, I= 1)(S=−1, I= 1)(S=−1, I= 1)
Σ+ = uus, Σ0 = uds, Σ− = dds
Σ+Σ+Σ+Σ+ I (JP ) = 1(12+)
Mass m = 1189.37 ± 0.07 MeV (S = 2.2)
Mean life τ = (0.8018 ± 0.0026)× 10−10 s
cτ = 2.404 cm
(τΣ+ − τ
Σ−) / τΣ+ = −0.0006 ± 0.0012
Magnetic moment µ = 2.458 ± 0.010 µN (S = 2.1)
(µΣ+ + µ
Σ−)/
µΣ+ = 0.014 ± 0.015
Γ(
Σ+ → nℓ+ν)
/Γ(
Σ− → nℓ−ν)
< 0.043
Decay parametersDecay parametersDecay parametersDecay parameters
pπ0 α0 = −0.980+0.017−0.015
" φ0 = (36 ± 34)
" γ0 = 0.16 [n]
" ∆0 = (187 ± 6) [n]
nπ+ α+ = 0.068 ± 0.013
" φ+ = (167 ± 20) (S = 1.1)
" γ+ = −0.97 [n]
" ∆+ = (−73+133− 10)
[n]
pγ αγ = −0.76 ± 0.08
p
Σ+ DECAY MODESΣ+ DECAY MODESΣ+ DECAY MODESΣ+ DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
pπ0 (51.57±0.30) % 189
nπ+ (48.31±0.30) % 185
pγ ( 1.23±0.05)× 10−3 225
nπ+γ [o] ( 4.5 ±0.5 )× 10−4 185
Λe+ νe ( 2.0 ±0.5 )× 10−5 71
∆S = ∆Q (SQ) violating modes or∆S = ∆Q (SQ) violating modes or∆S = ∆Q (SQ) violating modes or∆S = ∆Q (SQ) violating modes or
∆S = 1 weak neutral current (S1) modes∆S = 1 weak neutral current (S1) modes∆S = 1 weak neutral current (S1) modes∆S = 1 weak neutral current (S1) modes
ne+ νe SQ < 5 × 10−6 90% 224
nµ+ νµ SQ < 3.0 × 10−5 90% 202
pe+ e− S1 < 7 × 10−6 225
pµ+µ− S1 ( 2.4 +1.7−1.3 )× 10−8 121
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Σ 0Σ 0Σ 0Σ 0 I (JP ) = 1(12+)
Mass m = 1192.642 ± 0.024 MeV
mΣ− − m
Σ0 = 4.807 ± 0.035 MeV (S = 1.1)
mΣ0 − mΛ = 76.959 ± 0.023 MeV
Mean life τ = (7.4 ± 0.7)× 10−20 s
cτ = 2.22× 10−11 m
Transition magnetic moment∣
∣µΣ Λ
∣
∣ = 1.61 ± 0.08 µN
p
Σ0 DECAY MODESΣ0 DECAY MODESΣ0 DECAY MODESΣ0 DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
Λγ 100 % 74
Λγ γ < 3 % 90% 74
Λe+ e− [q] 5× 10−3 74
Σ−Σ−Σ−Σ− I (JP ) = 1(12+)
Mass m = 1197.449 ± 0.030 MeV (S = 1.2)
mΣ− − mΣ+ = 8.08 ± 0.08 MeV (S = 1.9)
mΣ− − mΛ = 81.766 ± 0.030 MeV (S = 1.2)
Mean life τ = (1.479 ± 0.011)× 10−10 s (S = 1.3)
cτ = 4.434 cm
Magnetic moment µ = −1.160 ± 0.025 µN (S = 1.7)
Σ− charge radius = 0.78 ± 0.10 fm
Decay parametersDecay parametersDecay parametersDecay parameters
nπ− α− = −0.068 ± 0.008
" φ− = (10 ± 15)
" γ− = 0.98 [n]
" ∆− = (249+ 12−120)
[n]
ne− νe gA/gV = 0.340 ± 0.017 [i ]
" f2(0)/
f1(0) = 0.97 ± 0.14
" D = 0.11 ± 0.10
Λe− νe gV /gA = 0.01 ± 0.10 [i ] (S = 1.5)
" gWM/gA = 2.4 ± 1.7 [i ]
Σ− DECAY MODESΣ− DECAY MODESΣ− DECAY MODESΣ− DECAY MODES Fraction (Γi /Γ) p (MeV/c)
nπ− (99.848±0.005) % 193
nπ−γ [o] ( 4.6 ±0.6 )× 10−4 193
ne− νe ( 1.017±0.034)× 10−3 230
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nµ− νµ ( 4.5 ±0.4 )× 10−4 210
Λe− νe ( 5.73 ±0.27 )× 10−5 79
Σ (1385) 3/2+Σ (1385) 3/2+Σ (1385) 3/2+Σ (1385) 3/2+ I (JP ) = 1(32+)
Σ (1385)+mass m = 1382.80 ± 0.35 MeV (S = 1.9)
Σ (1385)0 mass m = 1383.7 ± 1.0 MeV (S = 1.4)
Σ (1385)−mass m = 1387.2 ± 0.5 MeV (S = 2.2)
Σ (1385)+full width Γ = 36.0 ± 0.7 MeV
Σ (1385)0 full width Γ = 36 ± 5 MeV
Σ (1385)−full width Γ = 39.4 ± 2.1 MeV (S = 1.7)
Below K N thresholdp
Σ(1385) DECAY MODESΣ(1385) DECAY MODESΣ(1385) DECAY MODESΣ(1385) DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
Λπ (87.0 ±1.5 ) % 208
Σ π (11.7 ±1.5 ) % 129
Λγ ( 1.25+0.13−0.12) % 241
Σ+γ ( 7.0 ±1.7 )× 10−3 180
Σ−γ < 2.4 × 10−4 90% 173
Σ (1660) 1/2+Σ (1660) 1/2+Σ (1660) 1/2+Σ (1660) 1/2+ I (JP ) = 1(12+)
Re(pole position) = 1585 ± 20 MeV
−2Im(pole position) = 290+140− 40 MeV
Mass m = 1640 to 1680 (≈ 1660) MeV
Full width Γ = 100 to 300 (≈ 200) MeV
Σ(1660) DECAY MODESΣ(1660) DECAY MODESΣ(1660) DECAY MODESΣ(1660) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 0.05 to 0.15 (≈ 010) 405
Λπ (35 ±12 ) % 440
Σ π (37 ±10 ) % 387
Σ σ (20 ± 8 ) % –Λ(1405)π ( 4.0 ± 2.0) % 199
Σ (1670) 3/2−Σ (1670) 3/2−Σ (1670) 3/2−Σ (1670) 3/2− I (JP ) = 1(32−)
Mass m = 1665 to 1685 (≈ 1675) MeV
Full width Γ = 40 to 100 (≈ 70) MeV
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Σ(1670) DECAY MODESΣ(1670) DECAY MODESΣ(1670) DECAY MODESΣ(1670) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 0.06 to 0.12 419
Λπ 5–15 % 452
Σ π 30–60 % 398
Σ σ (7.0 ±3.0) % –
Σ (1750) 1/2−Σ (1750) 1/2−Σ (1750) 1/2−Σ (1750) 1/2− I (JP ) = 1(12−)
Mass m = 1700 to 1800 (≈ 1750) MeV
Full width Γ = 100 to 200 (≈ 150) MeV
Σ(1750) DECAY MODESΣ(1750) DECAY MODESΣ(1750) DECAY MODESΣ(1750) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 0.06 to 0.12 486
Λπ (14 ±5 ) % 507
Σ π (16 ±4 ) % 456
Σ η 15–55 % 98
Σ (1385)π , D-wave < 1 % 305
Λ(1520)π ( 2.0 ±1.0) % 175
NK∗(892), S=1/2 ( 8 ±4 ) % †
Σ (1775) 5/2−Σ (1775) 5/2−Σ (1775) 5/2−Σ (1775) 5/2− I (JP ) = 1(52−)
Mass m = 1770 to 1780 (≈ 1775) MeV
Full width Γ = 105 to 135 (≈ 120) MeV
Σ(1775) DECAY MODESΣ(1775) DECAY MODESΣ(1775) DECAY MODESΣ(1775) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 37–43% 508
Λπ 14–20% 525
Σ π 2–5% 475
Σ (1385)π 8–12% 327
Λ(1520)π , P-wave 17–23% 202
Σ (1910) 3/2−Σ (1910) 3/2−Σ (1910) 3/2−Σ (1910) 3/2− I (JP ) = 1(32−)
was Σ (1940)
Full width Γ = 0.03 ± 0.02
Full width Γ = 0.16 ± 0.04
Full width Γ = 0.04 ± 0.03
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Full width Γ = 0.01 ± 0.01
Full width Γ = 0.01 ± 0.01
Full width Γ = 0.03 ± 0.01
Full width Γ = 0.03 ± 0.02
Full width Γ = 0.02 ± 0.01
Full width Γ = 0.01 ± 0.01
Mass m = 1870 to 1950 (≈ 1910) MeV
Full width Γ = 150 to 300 (≈ 220) MeV
Σ(1910) DECAY MODESΣ(1910) DECAY MODESΣ(1910) DECAY MODESΣ(1910) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 0.01 to 0.05 (≈ 0.02) 615
Λπ ( 6 ± 4 ) % 619
Σ π (86 ±21 ) % 574
Σ (1385)π seen 439
Λ(1520)π seen 329
∆(1232)K ( 3.0 ± 1.0) % 377
NK∗(892) seen 274
NK∗(892), S=1/2 , D-wave ( 1.0 ± 1.0) % 274
Σ (1915) 5/2+Σ (1915) 5/2+Σ (1915) 5/2+Σ (1915) 5/2+ I (JP ) = 1(52+)
Mass m = 1900 to 1935 (≈ 1915) MeV
Full width Γ = 80 to 160 (≈ 120) MeV
Σ(1915) DECAY MODESΣ(1915) DECAY MODESΣ(1915) DECAY MODESΣ(1915) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 0.05 to 0.15 618
Λπ ( 6.0 ±2.0) % 623
Σ π (10.0 ±2.0) % 577
Σ (1385)π , P-wave ( 2.0 ±2.0) % 443
Σ (1385)π , F-wave ( 4.0 ±2.0) % 443
Σ (1385)π <5 % 443
Λ(1520)π , D-wave ( 8.0 ±2.0) % 334
NK∗(892), S=1/2, F-wave ( 5.0 ±3.0) % 282
NK∗(892), S=3/2, F-wave ( 5.0 ±2.0) % 282
∆K , P-wave (16 ±5 ) % 383
∆K , F-wave ( 5.0 ±3.0) % 383
Σ (2030) 7/2+Σ (2030) 7/2+Σ (2030) 7/2+Σ (2030) 7/2+ I (JP ) = 1(72+)
Mass m = 2025 to 2040 (≈ 2030) MeV
Full width Γ = 150 to 200 (≈ 180) MeV
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Σ(2030) DECAY MODESΣ(2030) DECAY MODESΣ(2030) DECAY MODESΣ(2030) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK 17–23 % 702
Λπ 17–23 % 700
Σ π 5–10 % 657
Ξ K <2 % 422
Σ (1385)π 5–15 % 532
Σ (1385)π , F-wave ( 1.0±1.0) % 532
Λ(1520)π 10–20 % 431
∆(1232)K 10–20 % 498
∆(1232)K , F-wave (15 ±5 ) % 498
∆(1232)K , H-wave ( 1.0±1.0) % 498
NK∗(892) <5 % 439
NK ∗(892), S=3/2, F-wave (14 ±8 ) % 439
Σ (2250)Σ (2250)Σ (2250)Σ (2250) I (JP ) = 1(??)
Mass m = 2210 to 2280 (≈ 2250) MeV
Full width Γ = 60 to 150 (≈ 100) MeV
Σ(2250) DECAY MODESΣ(2250) DECAY MODESΣ(2250) DECAY MODESΣ(2250) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
NK <10 % 851
Λπ seen 842
Σ π seen 803
Ξ BARYONSΞ BARYONSΞ BARYONSΞ BARYONS(S=−2, I= 1/2)(S=−2, I= 1/2)(S=−2, I= 1/2)(S=−2, I= 1/2)
Ξ0 = uss, Ξ− = dss
Ξ 0Ξ 0Ξ 0Ξ 0 I (JP ) = 12 (
12+)
P is not yet measured; + is the quark model prediction.
Mass m = 1314.86 ± 0.20 MeV
mΞ− − mΞ0 = 6.85 ± 0.21 MeV
Mean life τ = (2.90 ± 0.09)× 10−10 s
cτ = 8.71 cm
Magnetic moment µ = −1.250 ± 0.014 µN
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Decay parametersDecay parametersDecay parametersDecay parameters
Λπ0 α = −0.356 ± 0.011
" φ = (21 ± 12)
" γ = 0.85 [n]
" ∆ = (218+12−19)
[n]
Λγ α = −0.70 ± 0.07
Λe+ e− α = −0.8 ± 0.2
Σ0γ α = −0.69 ± 0.06
Σ+ e− νe g1(0)/f1(0) = 1.22 ± 0.05
Σ+ e− νe f2(0)/f1(0) = 2.0 ± 0.9
p
Ξ0 DECAY MODESΞ0 DECAY MODESΞ0 DECAY MODESΞ0 DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
Λπ0 (99.524±0.012) % 135
Λγ ( 1.17 ±0.07 )× 10−3 184
Λe+ e− ( 7.6 ±0.6 )× 10−6 184
Σ0γ ( 3.33 ±0.10 )× 10−3 117
Σ+ e− νe ( 2.52 ±0.08 )× 10−4 120
Σ+µ− νµ ( 2.33 ±0.35 )× 10−6 64
∆S = ∆Q (SQ) violating modes or∆S = ∆Q (SQ) violating modes or∆S = ∆Q (SQ) violating modes or∆S = ∆Q (SQ) violating modes or∆S = 2 forbidden (S2) modes∆S = 2 forbidden (S2) modes∆S = 2 forbidden (S2) modes∆S = 2 forbidden (S2) modes
Σ− e+ νe SQ < 9 × 10−4 90% 112
Σ−µ+ νµ SQ < 9 × 10−4 90% 49
pπ− S2 < 8 × 10−6 90% 299
pe− νe S2 < 1.3 × 10−3 323
pµ− νµ S2 < 1.3 × 10−3 309
Ξ−Ξ−Ξ−Ξ− I (JP ) = 12 (
12+)
P is not yet measured; + is the quark model prediction.
Mass m = 1321.71 ± 0.07 MeV
(mΞ− − m
Ξ+) / mΞ− = (−3 ± 9)× 10−5
Mean life τ = (1.639 ± 0.015)× 10−10 s
cτ = 4.91 cm
(τΞ− − τ
Ξ+) / τΞ− = −0.01 ± 0.07
Magnetic moment µ = −0.6507 ± 0.0025 µN(µ
Ξ− + µΞ+) /
∣
∣µΞ−
∣
∣ = +0.01 ± 0.05
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Decay parametersDecay parametersDecay parametersDecay parameters
Λπ− α = −0.401 ± 0.010
[α(Ξ−)α−(Λ) − α(Ξ+)α+(Λ)] / [ sum ] = (0 ± 7)× 10−4
" φ = (−2.1 ± 0.8)
" γ = 0.89 [n]
" ∆ = (175.9 ± 1.5) [n]
Λe− νe gA/gV = −0.25 ± 0.05 [i ]
p
Ξ− DECAY MODESΞ− DECAY MODESΞ− DECAY MODESΞ− DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
Λπ− (99.887±0.035) % 140
Σ−γ ( 1.27 ±0.23 )× 10−4 118
Λe− νe ( 5.63 ±0.31 )× 10−4 190
Λµ− νµ ( 3.5 +3.5−2.2 )× 10−4 163
Σ0 e− νe ( 8.7 ±1.7 )× 10−5 123
Σ0µ− νµ < 8 × 10−4 90% 70
Ξ0 e− νe < 2.3 × 10−3 90% 7
∆S = 2 forbidden (S2) modes∆S = 2 forbidden (S2) modes∆S = 2 forbidden (S2) modes∆S = 2 forbidden (S2) modes
nπ− S2 < 1.9 × 10−5 90% 304
ne− νe S2 < 3.2 × 10−3 90% 327
nµ− νµ S2 < 1.5 % 90% 314
pπ−π− S2 < 4 × 10−4 90% 223
pπ− e− νe S2 < 4 × 10−4 90% 305
pπ−µ− νµ S2 < 4 × 10−4 90% 251
pµ−µ− L < 4 × 10−8 90% 272
Ξ (1530) 3/2+Ξ (1530) 3/2+Ξ (1530) 3/2+Ξ (1530) 3/2+ I (JP ) = 12 (
32+)
Ξ (1530)0 mass m = 1531.80 ± 0.32 MeV (S = 1.3)
Ξ (1530)−mass m = 1535.0 ± 0.6 MeV
Ξ (1530)0 full width Γ = 9.1 ± 0.5 MeV
Ξ (1530)− full width Γ = 9.9+1.7−1.9 MeV
p
Ξ(1530) DECAY MODESΞ(1530) DECAY MODESΞ(1530) DECAY MODESΞ(1530) DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
Ξ π 100 % 158
Ξ γ <3.7 % 90% 202
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Ξ (1690)Ξ (1690)Ξ (1690)Ξ (1690) I (JP ) = 12 (?
?)
Mass m = 1690 ± 10 MeV [p]
Full width Γ < 30 MeV
Ξ(1690) DECAY MODESΞ(1690) DECAY MODESΞ(1690) DECAY MODESΞ(1690) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
ΛK seen 240
Σ K seen 70
Ξ π seen 311
Ξ−π+π− possibly seen 213
Ξ (1820) 3/2−Ξ (1820) 3/2−Ξ (1820) 3/2−Ξ (1820) 3/2− I (JP ) = 12 (
32−)
Mass m = 1823 ± 5 MeV [p]
Full width Γ = 24+15−10 MeV [p]
Ξ(1820) DECAY MODESΞ(1820) DECAY MODESΞ(1820) DECAY MODESΞ(1820) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
ΛK large 402
Σ K small 324
Ξ π small 421
Ξ (1530)π small 237
Ξ (1950)Ξ (1950)Ξ (1950)Ξ (1950) I (JP ) = 12 (?
?)
Mass m = 1950 ± 15 MeV [p]
Full width Γ = 60 ± 20 MeV [p]
Ξ(1950) DECAY MODESΞ(1950) DECAY MODESΞ(1950) DECAY MODESΞ(1950) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
ΛK seen 522
Σ K possibly seen 460
Ξ π seen 519
Ξ (2030)Ξ (2030)Ξ (2030)Ξ (2030) I (JP ) = 12 ( ≥
52?)
Mass m = 2025 ± 5 MeV [p]
Full width Γ = 20+15− 5 MeV [p]
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Ξ(2030) DECAY MODESΞ(2030) DECAY MODESΞ(2030) DECAY MODESΞ(2030) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
ΛK ∼ 20 % 585
Σ K ∼ 80 % 529
Ξ π small 574
Ξ (1530)π small 416
ΛK π small 499
Σ K π small 428
Ω BARYONSΩ BARYONSΩ BARYONSΩ BARYONS(S=−3, I= 0)(S=−3, I= 0)(S=−3, I= 0)(S=−3, I= 0)
Ω− = sss
Ω−Ω−Ω−Ω− I (JP ) = 0(32+)
JP = 32+ is the quark-model prediction; and J = 3/2 is fairly well
established.
Mass m = 1672.45 ± 0.29 MeV
(mΩ− − m
Ω+) / mΩ− = (−1 ± 8)× 10−5
Mean life τ = (0.821 ± 0.011)× 10−10 s
cτ = 2.461 cm
(τΩ− − τ
Ω+) / τΩ− = 0.00 ± 0.05
Magnetic moment µ = −2.02 ± 0.05 µN
Decay parametersDecay parametersDecay parametersDecay parameters
α(Ω−) α−(Λ) FOR Ω− → ΛK− = 0.0115 ± 0.0015
ΛK− α = 0.0157 ± 0.0021
ΛK−, ΛK+ (α + α)/(α− α) = −0.02 ± 0.13
Ξ0π− α = 0.09 ± 0.14
Ξ−π0 α = 0.05 ± 0.21
p
Ω− DECAY MODESΩ− DECAY MODESΩ− DECAY MODESΩ− DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
ΛK− (67.8±0.7) % 211
Ξ0π− (23.6±0.7) % 294
Ξ−π0 ( 8.6±0.4) % 289
Ξ−π+π− ( 3.7+0.7−0.6)× 10−4 189
Ξ (1530)0π− < 7 × 10−5 90% 17
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Ξ0 e− νe ( 5.6±2.8)× 10−3 319
Ξ−γ < 4.6 × 10−4 90% 314
∆S = 2 forbidden (S2) modes∆S = 2 forbidden (S2) modes∆S = 2 forbidden (S2) modes∆S = 2 forbidden (S2) modes
Λπ− S2 < 2.9 × 10−6 90% 449
Ω(2012)−Ω(2012)−Ω(2012)−Ω(2012)− I (JP ) = 0(?−)
Mass m = 2012.4 ± 0.9 MeV
Full width Γ = 6.4+3.0−2.6 MeV
p
Ω(2012)− DECAY MODESΩ(2012)− DECAY MODESΩ(2012)− DECAY MODESΩ(2012)− DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
Ξ0K− DEFINED AS 1DEFINED AS 1DEFINED AS 1DEFINED AS 1 403
Ξ−K0 0.83±0.21 392
Ξ0π0K− <0.30 90% 245
Ξ0π−K0 <0.21 90% 230
Ξ−π+K− <0.08 90% 224
Ω(2250)−Ω(2250)−Ω(2250)−Ω(2250)− I (JP ) = 0(??)
Mass m = 2252 ± 9 MeV
Full width Γ = 55 ± 18 MeV
Ω(2250)− DECAY MODESΩ(2250)− DECAY MODESΩ(2250)− DECAY MODESΩ(2250)− DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ−π+K− seen 532
Ξ (1530)0K− seen 437
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CHARMEDBARYONSCHARMEDBARYONSCHARMEDBARYONSCHARMEDBARYONS(C=+1)(C=+1)(C=+1)(C=+1)
Λ+c
= ud c, Σ++c
= uuc, Σ+c
= ud c, Σ0c = d d c,
Ξ+c
= u s c, Ξ0c = d s c, Ω0
c = s s c
Λ+
cΛ+
cΛ+
cΛ+
cI (JP ) = 0(12
+)
Mass m = 2286.46 ± 0.14 MeV
Mean life τ = (202.4 ± 3.1)× 10−15 s (S = 1.7)
cτ = 60.7 µm
Decay asymmetry parametersDecay asymmetry parametersDecay asymmetry parametersDecay asymmetry parameters
Λπ+ α = −0.84 ± 0.09
Σ+π0 α = −0.55 ± 0.11
α FOR Λ+c
→ Σ0π+ = −0.73 ± 0.18
Λℓ+νℓ α = −0.86 ± 0.04
α FOR Λ+c
→ pK0S = 0.2 ± 0.5
(α + α)/(α− α) in Λ+c
→ Λπ+, Λ−c
→ Λπ− = −0.07 ± 0.31
(α + α)/(α−α) in Λ+c
→ Λe+νe , Λ−c
→ Λe− νe = 0.00±0.04
ACP (ΛX ) in Λc → ΛX , Λc → ΛX = (2 ± 7)%
∆ACP = ACP (Λ+c
→ pK+K−) − ACP (Λ+c
→ pπ+π−) =
(0.3 ± 1.1)%
Branching fractions marked with a footnote, e.g. [a], have been correctedfor decay modes not observed in the experiments. For example, the sub-
mode fraction Λ+c
→ pK∗(892)0 seen in Λ+c
→ pK−π+ has been
multiplied up to include K∗(892)0 → K0π0 decays.
Scale factor/ p
Λ+c
DECAY MODESΛ+c
DECAY MODESΛ+c
DECAY MODESΛ+c
DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
Hadronic modes with a p or n: S = −1 final statesHadronic modes with a p or n: S = −1 final statesHadronic modes with a p or n: S = −1 final statesHadronic modes with a p or n: S = −1 final statespK0
S ( 1.59± 0.08) % S=1.1 873
pK−π+ ( 6.28± 0.32) % S=1.4 823
pK∗(892)0 [r ] ( 1.96± 0.27) % 685
∆(1232)++K− ( 1.08± 0.25) % 710
Λ(1520)π+ [r ] ( 2.2 ± 0.5 ) % 628
pK−π+nonresonant ( 3.5 ± 0.4 ) % 823
pK0S π
0 ( 1.97± 0.13) % S=1.1 823
nK0S π
+ ( 1.82± 0.25) % 821
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pK0 η ( 1.6 ± 0.4 ) % 568
pK0S π
+π− ( 1.60± 0.12) % S=1.1 754
pK−π+π0 ( 4.46± 0.30) % S=1.5 759
pK∗(892)−π+ [r ] ( 1.4 ± 0.5 ) % 580
p (K−π+)nonresonantπ0 ( 4.6 ± 0.8 ) % 759
∆(1232)K∗(892) seen 419
pK− 2π+π− ( 1.4 ± 0.9 )× 10−3 671
pK−π+2π0 ( 1.0 ± 0.5 ) % 678
Hadronic modes with a p: S = 0 final statesHadronic modes with a p: S = 0 final statesHadronic modes with a p: S = 0 final statesHadronic modes with a p: S = 0 final states
pπ0 < 2.7 × 10−4 CL=90% 945
pη ( 1.24± 0.30)× 10−3 856
pω(782)0 ( 9 ± 4 )× 10−4 751
pπ+π− ( 4.61± 0.28)× 10−3 927
p f0(980) [r ] ( 3.5 ± 2.3 )× 10−3 614
p2π+2π− ( 2.3 ± 1.4 )× 10−3 852
pK+K− ( 1.06± 0.06)× 10−3 616
pφ [r ] ( 1.06± 0.14)× 10−3 590
pK+K−non-φ ( 5.3 ± 1.2 )× 10−4 616
pφπ0 (10 ± 4 )× 10−5 460
pK+K−π0nonresonant < 6.3 × 10−5 CL=90% 494
Hadronic modes with a hyperon: S = −1 final statesHadronic modes with a hyperon: S = −1 final statesHadronic modes with a hyperon: S = −1 final statesHadronic modes with a hyperon: S = −1 final states
Λπ+ ( 1.30± 0.07) % S=1.1 864
Λπ+π0 ( 7.1 ± 0.4 ) % S=1.1 844
Λρ+ < 6 % CL=95% 636
Λπ−2π+ ( 3.64± 0.29) % S=1.4 807
Σ (1385)+π+π− , Σ∗+ →Λπ+
( 1.0 ± 0.5 ) % 688
Σ (1385)− 2π+ , Σ∗− →Λπ−
( 7.6 ± 1.4 )× 10−3 688
Λπ+ρ0 ( 1.5 ± 0.6 ) % 524
Σ (1385)+ρ0 , Σ∗+ → Λπ+ ( 5 ± 4 )× 10−3 363
Λπ−2π+nonresonant < 1.1 % CL=90% 807
Λπ−π02π+ total ( 2.3 ± 0.8 ) % 757
Λπ+η [r ] ( 1.84± 0.26) % 691
Σ (1385)+ η [r ] ( 9.1 ± 2.0 )× 10−3 570
Λπ+ω [r ] ( 1.5 ± 0.5 ) % 517
Λπ−π02π+ , no η or ω < 8 × 10−3 CL=90% 757
ΛK+K0 ( 5.7 ± 1.1 )× 10−3 S=1.9 443
Ξ (1690)0K+ , Ξ∗0 → ΛK0 ( 1.6 ± 0.5 )× 10−3 286
Σ0π+ ( 1.29± 0.07) % S=1.1 825
Σ+π0 ( 1.25± 0.10) % 827
Σ+ η ( 4.4 ± 2.0 )× 10−3 713
Σ+ η′ ( 1.5 ± 0.6 ) % 391
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Σ+π+π− ( 4.50± 0.25) % S=1.3 804
Σ+ρ0 < 1.7 % CL=95% 575
Σ− 2π+ ( 1.87± 0.18) % 799
Σ0π+π0 ( 3.5 ± 0.4 ) % 803
Σ+π0π0 ( 1.55± 0.15) % 806
Σ0π−2π+ ( 1.11± 0.30) % 763
Σ+π+π−π0 — 767
Σ+ω [r ] ( 1.70± 0.21) % 569
Σ−π02π+ ( 2.1 ± 0.4 ) % 762
Σ+K+K− ( 3.5 ± 0.4 )× 10−3 S=1.1 349
Σ+φ [r ] ( 3.9 ± 0.6 )× 10−3 S=1.1 295
Ξ (1690)0K+ , Ξ∗0 →Σ+K−
( 1.02± 0.25)× 10−3 286
Σ+K+K−nonresonant < 8 × 10−4 CL=90% 349
Ξ0K+ ( 5.5 ± 0.7 )× 10−3 653
Ξ−K+π+ ( 6.2 ± 0.6 )× 10−3 S=1.1 565
Ξ (1530)0K+ ( 4.3 ± 0.9 )× 10−3 S=1.1 473
Hadronic modes with a hyperon: S = 0 final statesHadronic modes with a hyperon: S = 0 final statesHadronic modes with a hyperon: S = 0 final statesHadronic modes with a hyperon: S = 0 final states
ΛK+ ( 6.1 ± 1.2 )× 10−4 781
ΛK+π+π− < 5 × 10−4 CL=90% 637
Σ0K+ ( 5.2 ± 0.8 )× 10−4 735
Σ0K+π+π− < 2.6 × 10−4 CL=90% 574
Σ+K+π− ( 2.1 ± 0.6 )× 10−3 670
Σ+K∗(892)0 [r ] ( 3.5 ± 1.0 )× 10−3 470
Σ−K+π+ < 1.2 × 10−3 CL=90% 664
Doubly Cabibbo-suppressed modesDoubly Cabibbo-suppressed modesDoubly Cabibbo-suppressed modesDoubly Cabibbo-suppressed modes
pK+π− ( 1.11± 0.18)× 10−4 823
Semileptonic modesSemileptonic modesSemileptonic modesSemileptonic modes
Λe+ νe ( 3.6 ± 0.4 ) % 871
Λµ+ νµ ( 3.5 ± 0.5 ) % 867
Inclusive modesInclusive modesInclusive modesInclusive modese+ anything ( 3.95± 0.35) % –p anything (50 ±16 ) % –n anything (50 ±16 ) % –
Λ anything (38.2 + 2.9− 2.4 ) % –
3prongs (24 ± 8 ) % –
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∆C = 1 weak neutral current (C1) modes, or∆C = 1 weak neutral current (C1) modes, or∆C = 1 weak neutral current (C1) modes, or∆C = 1 weak neutral current (C1) modes, orLepton Family number (LF ), or Lepton number (L), orLepton Family number (LF ), or Lepton number (L), orLepton Family number (LF ), or Lepton number (L), orLepton Family number (LF ), or Lepton number (L), or
Baryon number (B) violating modesBaryon number (B) violating modesBaryon number (B) violating modesBaryon number (B) violating modes
pe+ e− C1 < 5.5 × 10−6 CL=90% 951
pµ+µ−non-resonant C1 < 7.7 × 10−8 CL=90% 937
pe+µ− LF < 9.9 × 10−6 CL=90% 947
pe−µ+ LF < 1.9 × 10−5 CL=90% 947
p2e+ L,B < 2.7 × 10−6 CL=90% 951
p2µ+ L,B < 9.4 × 10−6 CL=90% 937
pe+µ+ L,B < 1.6 × 10−5 CL=90% 947
Σ−µ+µ+ L < 7.0 × 10−4 CL=90% 812
Λc(2595)+Λc(2595)+Λc(2595)+Λc(2595)+ I (JP ) = 0(12
−)
The spin-parity follows from the fact that Σc(2455)π decays, with
little available phase space, are dominant. This assumes that JP =1/2+ for the Σc(2455).
Mass m = 2592.25 ± 0.28 MeV
m − mΛ+c
= 305.79 ± 0.24 MeV
Full width Γ = 2.6 ± 0.6 MeV
Λ+cππ and its submode Σc (2455)π — the latter just barely — are the
only strong decays allowed to an excited Λ+c
having this mass; and the
submode seems to dominate.
Λc (2595)+ DECAY MODESΛc (2595)+ DECAY MODESΛc (2595)+ DECAY MODESΛc (2595)+ DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ+cπ+π− [s] — 117
Σc(2455)++π− 24 ± 7 % †
Σc(2455)0π+ 24 ± 7 % †
Λ+cπ+π−3-body 18 ± 10 % 117
Λ+cπ0 [t] not seen 258
Λ+cγ not seen 288
Λc(2625)+Λc(2625)+Λc(2625)+Λc(2625)+ I (JP ) = 0(32
−)
JP has not been measured; 32− is the quark-model prediction.
Mass m = 2628.11 ± 0.19 MeV (S = 1.1)
m − mΛ+c
= 341.65 ± 0.13 MeV (S = 1.1)
Full width Γ < 0.97 MeV, CL = 90%
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Λ+cππ and its submode Σ(2455)π are the only strong decays allowed to
an excited Λ+c
having this mass.
p
Λc (2625)+ DECAY MODESΛc (2625)+ DECAY MODESΛc (2625)+ DECAY MODESΛc (2625)+ DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
Λ+cπ+π− ≈ 67% 184
Σc(2455)++π− <5 90% 102
Σc(2455)0π+ <5 90% 102
Λ+cπ+π−3-body large 184
Λ+cπ0 [t] not seen 293
Λ+cγ not seen 319
Λc(2860)+Λc(2860)+Λc(2860)+Λc(2860)+ I (JP ) = 0(32
+)
Mass m = 2856.1+2.3−6.0 MeV
Full width Γ = 68+12−22 MeV
Λc (2860)+ DECAY MODESΛc (2860)+ DECAY MODESΛc (2860)+ DECAY MODESΛc (2860)+ DECAY MODES Fraction (Γi /Γ) p (MeV/c)
D0p seen 259
Λc(2880)+Λc(2880)+Λc(2880)+Λc(2880)+ I (JP ) = 0(52
+)
Mass m = 2881.63 ± 0.24 MeV
m − mΛ+c
= 595.17 ± 0.28 MeV
Full width Γ = 5.6+0.8−0.6 MeV
Λc (2880)+ DECAY MODESΛc (2880)+ DECAY MODESΛc (2880)+ DECAY MODESΛc (2880)+ DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ+cπ+π− seen 471
Σc(2455)0 ,++π± seen 376
Σc(2520)0 ,++π± seen 317
pD0 seen 316
Λc(2940)+Λc(2940)+Λc(2940)+Λc(2940)+ I (JP ) = 0(32
−)
JP = 3/2− is favored, but is not certain
Mass m = 2939.6+1.3−1.5 MeV
Full width Γ = 20+6−5 MeV
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Λc (2940)+ DECAY MODESΛc (2940)+ DECAY MODESΛc (2940)+ DECAY MODESΛc (2940)+ DECAY MODES Fraction (Γi /Γ) p (MeV/c)
pD0 seen 420
Σc(2455)0 ,++π± seen –
Σc(2455)Σc(2455)Σc(2455)Σc(2455) I (JP ) = 1(12+)
Σc(2455)++mass m = 2453.97 ± 0.14 MeV
Σc(2455)+ mass m = 2452.9 ± 0.4 MeV
Σc(2455)0 mass m = 2453.75 ± 0.14 MeV
mΣ++
c
− mΛ+c
= 167.510 ± 0.017 MeV
mΣ+
c
− mΛ+c
= 166.4 ± 0.4 MeV
mΣ0
c− m
Λ+c
= 167.290 ± 0.017 MeV
mΣ++
c
− mΣ0
c= 0.220 ± 0.013 MeV
mΣ+
c
− mΣ0
c= −0.9 ± 0.4 MeV
Σc(2455)++full width Γ = 1.89+0.09
−0.18 MeV (S = 1.1)
Σc(2455)+ full width Γ < 4.6 MeV, CL = 90%
Σc(2455)0 full width Γ = 1.83+0.11
−0.19 MeV (S = 1.2)
Λ+cπ is the only strong decay allowed to a Σc having this mass.
Σc (2455) DECAY MODESΣc (2455) DECAY MODESΣc (2455) DECAY MODESΣc (2455) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ+cπ ≈ 100 % 94
Σc(2520)Σc(2520)Σc(2520)Σc(2520) I (JP ) = 1(32+)
JP has not been measured; 32+ is the quark-model prediction.
Σc(2520)++mass m = 2518.41+0.21
−0.19 MeV (S = 1.1)
Σc(2520)+ mass m = 2517.5 ± 2.3 MeV
Σc(2520)0 mass m = 2518.48 ± 0.20 MeV (S = 1.1)
mΣc (2520)
++ − mΛ+c
= 231.95+0.17−0.12 MeV (S = 1.3)
mΣc (2520)
+ − mΛ+c
= 231.0 ± 2.3 MeV
mΣc (2520)
0 − mΛ+c
= 232.02+0.15−0.14 MeV (S = 1.3)
mΣc (2520)
++ − mΣc (2520)
0 = 0.01 ± 0.15 MeV
Σc(2520)++ full width Γ = 14.78+0.30
−0.40 MeV
Σc(2520)+ full width Γ < 17 MeV, CL = 90%
Σc(2520)0 full width Γ = 15.3+0.4
−0.5 MeV
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Λ+cπ is the only strong decay allowed to a Σc having this mass.
Σc (2520) DECAY MODESΣc (2520) DECAY MODESΣc (2520) DECAY MODESΣc (2520) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ+cπ ≈ 100 % 179
Σc(2800)Σc(2800)Σc(2800)Σc(2800) I (JP ) = 1(??)
Σc(2800)++ mass m = 2801+4
−6 MeV
Σc(2800)+ mass m = 2792+14
− 5 MeV
Σc(2800)0 mass m = 2806+5
−7 MeV (S = 1.3)
mΣc (2800)
++ − mΛ+c
= 514+4−6 MeV
mΣc (2800)
+ − mΛ+c
= 505+14− 5 MeV
mΣc (2800)
0 − mΛ+c
= 519+5−7 MeV (S = 1.3)
Σc(2800)++ full width Γ = 75+22
−17 MeV
Σc(2800)+ full width Γ = 62+60
−40 MeV
Σc(2800)0 full width Γ = 72+22
−15 MeV
Σc (2800) DECAY MODESΣc (2800) DECAY MODESΣc (2800) DECAY MODESΣc (2800) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ+cπ seen 443
Ξ+
cΞ+
cΞ+
cΞ+
cI (JP ) = 1
2 (12+)
JP has not been measured; 12+ is the quark-model prediction.
Mass m = 2467.94+0.17−0.20 MeV
Mean life τ = (456 ± 5)× 10−15 s
cτ = 136.6 µm
Branching fractions marked with a footnote, e.g. [a], have been correctedfor decay modes not observed in the experiments. For example, the sub-
mode fraction Ξ+c
→ Σ+K∗(892)0 seen in Ξ+c
→ Σ+K−π+ has
been multiplied up to include K∗(892)0 → K0π0 decays.
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p
Ξ+c
DECAY MODESΞ+c
DECAY MODESΞ+c
DECAY MODESΞ+c
DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
No absolute branching fractions have been measured.No absolute branching fractions have been measured.No absolute branching fractions have been measured.No absolute branching fractions have been measured.
The following are branching ratios relative to Ξ− 2π+.The following are branching ratios relative to Ξ− 2π+.The following are branching ratios relative to Ξ− 2π+.The following are branching ratios relative to Ξ− 2π+.
Cabibbo-favored (S = −2) decays — relative to Ξ− 2π+Cabibbo-favored (S = −2) decays — relative to Ξ− 2π+Cabibbo-favored (S = −2) decays — relative to Ξ− 2π+Cabibbo-favored (S = −2) decays — relative to Ξ− 2π+
p2K0S 0.087 ±0.021 767
ΛK0π+ — 852
Σ (1385)+K0 [r ] 1.0 ±0.5 746
ΛK− 2π+ 0.323 ±0.033 787
ΛK∗(892)0π+ [r ] < 0.16 90% 608
Σ (1385)+K−π+ [r ] < 0.23 90% 678
Σ+K−π+ 0.94 ±0.10 811
Σ+K ∗(892)0 [r ] 0.81 ±0.15 658
Σ0K− 2π+ 0.27 ±0.12 735
Ξ0π+ 0.55 ±0.16 877
Ξ− 2π+ DEFINED AS 1DEFINED AS 1DEFINED AS 1DEFINED AS 1 851
Ξ (1530)0π+ [r ] < 0.10 90% 750
Ξ (1620)0π+ seen –Ξ (1690)0π+ seen 644
Ξ0π+π0 2.3 ±0.7 856
Ξ0π− 2π+ 1.7 ±0.5 818
Ξ0 e+ νe 2.3 +0.7−0.8 884
Ω−K+π+ 0.07 ±0.04 399
Cabibbo-suppressed decays — relative to Ξ− 2π+Cabibbo-suppressed decays — relative to Ξ− 2π+Cabibbo-suppressed decays — relative to Ξ− 2π+Cabibbo-suppressed decays — relative to Ξ− 2π+
pK−π+ 0.0045±0.0022 944
pK∗(892)0 [r ] 0.0024±0.0013 828
Σ+π+π− 0.48 ±0.20 922
Σ− 2π+ 0.18 ±0.09 918
Σ+K+K− 0.15 ±0.06 580
Σ+φ [r ] < 0.11 90% 549
Ξ (1690)0K+ , Ξ0 →Σ+K−
< 0.05 90% 501
pφ(1020) (9 ±4 )× 10−5 751
Ξ 0c
Ξ 0c
Ξ 0c
Ξ 0c
I (JP ) = 12 (
12+)
JP has not been measured; 12+ is the quark-model prediction.
Mass m = 2470.90+0.22−0.29 MeV
mΞ0c− m
Ξ+c
= 2.96 ± 0.22 MeV
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Mean life τ = (153 ± 6)× 10−15 s (S = 2.4)
cτ = 45.8 µm
Decay asymmetry parametersDecay asymmetry parametersDecay asymmetry parametersDecay asymmetry parameters
Ξ−π+ α = −0.6 ± 0.4
p
Ξ0cDECAY MODESΞ0
cDECAY MODESΞ0
cDECAY MODESΞ0
cDECAY MODES Fraction (Γi /Γ) Scale factor (MeV/c)
Cabibbo-favored (S = −2) decaysCabibbo-favored (S = −2) decaysCabibbo-favored (S = −2) decaysCabibbo-favored (S = −2) decays
pK−K−π+ (4.8 ±1.2 )× 10−3 1.1 676
pK−K∗(892)0, K∗0 → K−π+ (2.0 ±0.6 )× 10−3 413
pK−K−π+ (no K ∗0) (3.0 ±0.9 )× 10−3 676
ΛK0S (3.0 ±0.8 )× 10−3 906
ΛK−π+ (1.45±0.33) % 1.1 856
ΛK0π+π− seen 787
ΛK−π+π+π− seen 703
Ξ−π+ (1.43±0.32) % 1.1 875
Ξ−π+π+π− (4.8 ±2.3 ) % 816
Ω−K+ (4.2 ±1.0 )× 10−3 522
Ξ− e+ νe (1.8 ±1.2 ) % 882
Cabibbo-suppressed decaysCabibbo-suppressed decaysCabibbo-suppressed decaysCabibbo-suppressed decays
Ξ−K+ (3.9 ±1.2 )× 10−4 790
ΛK+K− (no φ) (4.1 ±1.4 )× 10−4 648
Λφ (4.9 ±1.5 )× 10−4 621
Ξ ′+
cΞ ′+
cΞ ′+
cΞ ′+
cI (JP ) = 1
2 (12+)
JP has not been measured; 12+ is the quark-model prediction.
Mass m = 2578.4 ± 0.5 MeV
mΞ ′+c
− mΞ+c
= 110.5 ± 0.4 MeV
mΞ ′+c
− mΞ ′0c= −0.8 ± 0.6 MeV
The Ξ ′+c
–Ξ+c
mass difference is too small for any strong decay to occur.
Ξ ′+c
DECAY MODESΞ ′+c
DECAY MODESΞ ′+c
DECAY MODESΞ ′+c
DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ+cγ seen 108
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Ξ ′0c
Ξ ′0c
Ξ ′0c
Ξ ′0c
I (JP ) = 12 (
12+)
JP has not been measured; 12+ is the quark-model prediction.
Mass m = 2579.2 ± 0.5 MeVm
Ξ ′0c− m
Ξ0c= 108.3 ± 0.4 MeV
The Ξ ′0c
− Ξ0cmass difference is too small for any strong decay to occur.
Ξ ′0c
DECAY MODESΞ ′0c
DECAY MODESΞ ′0c
DECAY MODESΞ ′0c
DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ0c γ seen 106
Ξc(2645)Ξc(2645)Ξc(2645)Ξc(2645) I (JP ) = 12 (
32+)
JP has not been measured; 32+ is the quark-model prediction.
Ξc (2645)+ mass m = 2645.56+0.24
−0.30 MeV
Ξc (2645)0 mass m = 2646.38+0.20
−0.23 MeV (S = 1.1)m
Ξc (2645)+ − m
Ξ0c= 174.66 ± 0.09 MeV
mΞc (2645)0 − m
Ξ+c
= 178.44 ± 0.10 MeV
mΞc (2645)
+ − mΞc (2645)
0 = −0.82 ± 0.26 MeV
Ξc (2645)+ full width Γ = 2.14 ± 0.19 MeV (S = 1.1)
Ξc (2645)0 full width Γ = 2.35 ± 0.22 MeV
Ξc π is the only strong decay allowed to a Ξc resonance having this mass.
Ξc (2645) DECAY MODESΞc (2645) DECAY MODESΞc (2645) DECAY MODESΞc (2645) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ0c π
+ seen 102
Ξ+cπ− seen 106
Ξc(2790)Ξc(2790)Ξc(2790)Ξc(2790) I (JP ) = 12 (
12−)
JP has not been measured; 12− is the quark-model prediction.
Ξc (2790)+ mass = 2792.4 ± 0.5 MeV
Ξc (2790)0 mass = 2794.1 ± 0.5 MeV
mΞc (2790)
+ − mΞ ′0c= 213.20 ± 0.22 MeV
mΞc (2790)
0 − mΞ ′+c
= 215.70 ± 0.22 MeV
mΞc (2790)
+ − mΞc (2790)
0 = −1.7 ± 0.7 MeV
Ξc (2790)+ width = 8.9 ± 1.0 MeV
Ξc (2790)0 width = 10.0 ± 1.1 MeV
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Ξc (2790) DECAY MODESΞc (2790) DECAY MODESΞc (2790) DECAY MODESΞc (2790) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ ′c π seen 160
Ξc(2815)Ξc(2815)Ξc(2815)Ξc(2815) I (JP ) = 12 (
32−)
JP has not been measured; 32− is the quark-model prediction.
Ξc (2815)+ mass m = 2816.74+0.20
−0.23 MeV
Ξc (2815)0 mass m = 2820.25+0.25
−0.31 MeV
mΞc (2815)
+ − mΞ+c
= 348.80 ± 0.10 MeV
mΞc (2815)
0 − mΞ0c= 349.35 ± 0.11 MeV
mΞc (2815)+ − mΞc (2815)
0 = −3.51 ± 0.26 MeV
Ξc (2815)+ full width Γ = 2.43 ± 0.26 MeV
Ξc (2815)0 full width Γ = 2.54 ± 0.25 MeV
The Ξc ππ modes are consistent with being entirely via Ξc (2645)π.
Ξc (2815) DECAY MODESΞc (2815) DECAY MODESΞc (2815) DECAY MODESΞc (2815) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ ′c π seen 188
Ξc (2645)π seen 102
Ξc(2970)Ξc(2970)Ξc(2970)Ξc(2970) I (JP ) = 12 (?
?)
was Ξc(2980)
Ξc (2970)+ m = 2966.34+0.17
−1.00 MeV
Ξc (2970)0 m = 2970.9+0.4
−0.6 MeV
\quad mΞc (2970)
+ − mΞ+c
= 498.40+0.27−0.90 MeV
\quad mΞc (2970)0 − m
Ξ0c= 500.0+0.4
−0.6 MeV
mΞc (2970)
+ − mΞc (2970)
0 = −4.6+0.4−0.6 MeV
Ξc (2970)+ width Γ = 20.9+2.4
−3.5 MeV (S = 1.2)
Ξc (2970)0 width Γ = 28.1+3.4
−4.0 MeV (S = 1.5)
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Ξc (2970) DECAY MODESΞc (2970) DECAY MODESΞc (2970) DECAY MODESΞc (2970) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ+cK π seen 228
Σc(2455)K seen 128
Λ+cK not seen 412
Ξc 2π seen 383
Ξ ′c π seen –
Ξc(2645)π seen 275
Ξc(3055)Ξc(3055)Ξc(3055)Ξc(3055) I (JP ) = ?(??)
Mass m = 3055.9 ± 0.4 MeVFull width Γ = 7.8 ± 1.9 MeV
Ξc (3055) DECAY MODESΞc (3055) DECAY MODESΞc (3055) DECAY MODESΞc (3055) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Σ++K− seen –ΛD+ seen 316
Ξc(3080)Ξc(3080)Ξc(3080)Ξc(3080) I (JP ) = 12 (?
?)
Ξc (3080)+ m = 3077.2 ± 0.4 MeV
Ξc (3080)0 m = 3079.9 ± 1.4 MeV (S = 1.3)
Ξc (3080)+ width Γ = 3.6 ± 1.1 MeV (S = 1.5)
Ξc (3080)0 width Γ = 5.6 ± 2.2 MeV
Ξc (3080) DECAY MODESΞc (3080) DECAY MODESΞc (3080) DECAY MODESΞc (3080) DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ+cK π seen 415
Σc(2455)K seen 342
Σc(2455)++K− seen 342
Σc(2520)++K− seen 239
Σc(2455)K + Σc(2520)K seen –Λ+cK not seen 536
Λ+cK π+π− not seen 144
ΛD+ seen 362
Ω0c
Ω0c
Ω0c
Ω0c
I (JP ) = 0(12+)
JP has not been measured; 12+ is the quark-model prediction.
Mass m = 2695.2 ± 1.7 MeV (S = 1.3)Mean life τ = (268 ± 26)× 10−15 s
cτ = 80 µm
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p
Ω0cDECAY MODESΩ0
cDECAY MODESΩ0
cDECAY MODESΩ0
cDECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
No absolute branching fractions have been measured.No absolute branching fractions have been measured.No absolute branching fractions have been measured.No absolute branching fractions have been measured.The following are branching ratios relative to Ω−π+.The following are branching ratios relative to Ω−π+.The following are branching ratios relative to Ω−π+.The following are branching ratios relative to Ω−π+.
Cabibbo-favored (S = −3) decays — relative to Ω−π+Cabibbo-favored (S = −3) decays — relative to Ω−π+Cabibbo-favored (S = −3) decays — relative to Ω−π+Cabibbo-favored (S = −3) decays — relative to Ω−π+
Ω−π+ DEFINED AS 1DEFINED AS 1DEFINED AS 1DEFINED AS 1 821
Ω−π+π0 1.80±0.33 797
Ω−ρ+ >1.3 90% 532
Ω−π−2π+ 0.31±0.05 753
Ω− e+ νe 2.4 ±1.2 829
Ξ0K 0 1.64±0.29 950
Ξ0K−π+ 1.20±0.18 901
Ξ0K∗0, K∗0 → K−π+ 0.68±0.16 764
Ξ−K0π+ 2.12±0.28 895
Ξ−K− 2π+ 0.63±0.09 830
Ξ (1530)0K−π+, Ξ∗0 →Ξ−π+
0.21±0.06 757
Ξ−K∗0π+ 0.34±0.11 653
Σ+K−K−π+ <0.32 90% 689
ΛK0K0 1.72±0.35 837
Ωc(2770)0Ωc(2770)0Ωc(2770)0Ωc(2770)0 I (JP ) = 0(32
+)
JP has not been measured; 32+ is the quark-model prediction.
Mass m = 2765.9 ± 2.0 MeV (S = 1.2)
mΩc (2770)
0 − mΩ0
c= 70.7+0.8
−0.9 MeV
The Ωc (2770)0–Ω0
cmass difference is too small for any strong decay to
occur.
Ωc (2770)0 DECAY MODESΩc (2770)0 DECAY MODESΩc (2770)0 DECAY MODESΩc (2770)0 DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ω0c γ presumably 100% 70
Ωc(3000)0Ωc(3000)0Ωc(3000)0Ωc(3000)0 I (JP ) = ?(??)
Mass m = 3000.41 ± 0.22 MeV
Full width Γ = 4.5 ± 0.7 MeV
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Ωc (3000)0 DECAY MODESΩc (3000)0 DECAY MODESΩc (3000)0 DECAY MODESΩc (3000)0 DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ+cK− seen 181
Ωc(3050)0Ωc(3050)0Ωc(3050)0Ωc(3050)0 I (JP ) = ?(??)
Mass m = 3050.20 ± 0.13 MeV
Full width Γ < 1.2 MeV, CL = 95%
Ωc (3050)0 DECAY MODESΩc (3050)0 DECAY MODESΩc (3050)0 DECAY MODESΩc (3050)0 DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ+cK− seen 278
Ωc(3065)0Ωc(3065)0Ωc(3065)0Ωc(3065)0 I (JP ) = ?(??)
Mass m = 3065.46 ± 0.28 MeV
Full width Γ = 3.5 ± 0.4 MeV
Ωc (3065)0 DECAY MODESΩc (3065)0 DECAY MODESΩc (3065)0 DECAY MODESΩc (3065)0 DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ+cK− seen 303
Ωc(3090)0Ωc(3090)0Ωc(3090)0Ωc(3090)0 I (JP ) = ?(??)
Mass m = 3090.0 ± 0.5 MeV
Full width Γ = 8.7 ± 1.3 MeV
Ωc (3090)0 DECAY MODESΩc (3090)0 DECAY MODESΩc (3090)0 DECAY MODESΩc (3090)0 DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ+cK− seen 339
Ωc(3120)0Ωc(3120)0Ωc(3120)0Ωc(3120)0 I (JP ) = ?(??)
Mass m = 3119.1 ± 1.0 MeV
Full width Γ < 2.6 MeV, CL = 95%
Ωc (3120)0 DECAY MODESΩc (3120)0 DECAY MODESΩc (3120)0 DECAY MODESΩc (3120)0 DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ+cK− seen 379
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DOUBLY CHARMEDBARYONSDOUBLY CHARMEDBARYONSDOUBLY CHARMEDBARYONSDOUBLY CHARMEDBARYONS(C=+2)(C=+2)(C=+2)(C=+2)
Ξ++cc
= uc c, Ξ+cc
= d c c, Ω+cc
= s c c
Ξ++
ccΞ++
ccΞ++
ccΞ++
ccI (JP ) = ?(??)
Mass m = 3621.2 ± 0.7 MeV
Mean life τ = (256 ± 27)× 10−15 s
Ξ++cc
DECAY MODESΞ++cc
DECAY MODESΞ++cc
DECAY MODESΞ++cc
DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ+cK−π+π+ seen 880
Ξ+cπ+, Ξ+
c→ pK−π+ seen –
BOTTOMBARYONSBOTTOMBARYONSBOTTOMBARYONSBOTTOMBARYONS(B=−1)(B=−1)(B=−1)(B=−1)
Λ0b = ud b, Ξ0b = u s b, Ξ−
b= d s b, Ω−
b= s s b
Λ0b
Λ0b
Λ0b
Λ0b
I (JP ) = 0(12+)
I (JP ) not yet measured; 0(12+) is the quark model prediction.
Mass m = 5619.60 ± 0.17 MeV
mΛ0b− m
B0 = 339.2 ± 1.4 MeV
mΛ0b− m
B+ = 339.72 ± 0.28 MeV
Mean life τ = (1.471 ± 0.009)× 10−12 s
cτ = 441.0 µm
ACP (Λb → pπ−) = −0.025 ± 0.029 (S = 1.2)
ACP (Λb → pK−) = −0.025 ± 0.022
∆ACP (pK− /π−) = 0.014 ± 0.024
ACP (Λb → pK0π−) = 0.22 ± 0.13
∆ACP (J/ψpπ−/K−) = (5.7 ± 2.7)× 10−2
ACP (Λb → ΛK+π−) = −0.53 ± 0.25
ACP (Λb → ΛK+K−) = −0.28 ± 0.12
∆ACP (Λ0b → pK−µ+µ−) = (−4 ± 5)× 10−2
∆ACP (Λ0b → pπ−π+π−) = (1.1 ± 2.6)× 10−2
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∆ACP (Λ0b → (pπ−π+π−)LBM ) = (4 ± 4)× 10−2
∆ACP (Λ0b → pa1(1260)
−) = (−1 ± 4)× 10−2
∆ACP (Λ0b → N(1520)0 ρ(770)0) = (2 ± 5)× 10−2
∆ACP (Λ0b → ∆(1232)++π−π−) = (0.1 ± 3.3)× 10−2
∆ACP (Λ0b → pK−π+π−) = (3.2 ± 1.3)× 10−2
∆ACP (Λ0b → (pK−π+π−)LBM ) = (3.5 ± 1.6)× 10−2
∆ACP (Λ0b → N(1520)0K∗(892)0) = (5.5 ± 2.5)× 10−2
∆ACP (Λ0b → Λ(1520)ρ(770)0) = (1 ± 6)× 10−2
∆ACP (Λ0b → ∆(1232)++K−π−) = (4.4 ± 2.7)× 10−2
∆ACP (Λ0b → pK1(1410)
−) = (5 ± 4)× 10−2
∆ACP (Λ0b → pK−K+π−) = (−7 ± 5)× 10−2
∆ACP (Λ0b → pK−K+K−) = (0.2 ± 1.9)× 10−2
∆ACP (Λ0b → Λ(1520)φ(1020)) = (4 ± 6)× 10−2
∆ACP (Λ0b → (pK−)highmass φ(1020)) = (−0.7 ± 3.4)× 10−2
∆ACP (Λ0b → (pK−K+K−)LBM ) = (2.7 ± 2.4)× 10−2
AℓFB(µµ) in Λb → Λµ+µ− = −0.39 ± 0.04
∆(AℓFB(µµ)) in Λb → Λµ+µ− = −0.05 ± 0.09
AhFB(pπ) in Λb → Λ(pπ)µ+µ− = −0.30 ± 0.05
AℓhFB in Λb → Λµ+µ− = 0.25 ± 0.04
The branching fractions B(b -baryon → Λℓ− νℓ anything) and B(Λ0b
→
Λ+cℓ− νℓ anything) are not pure measurements because the underlying
measured products of these with B(b → b -baryon) were used to determine
B(b → b -baryon), as described in the note “Production and Decay ofb-Flavored Hadrons.”
For inclusive branching fractions, e.g., Λb → Λc anything, the values
usually are multiplicities, not branching fractions. They can be greaterthan one.
Scale factor/ p
Λ0bDECAY MODESΛ0
bDECAY MODESΛ0
bDECAY MODESΛ0
bDECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
J/ψ(1S)Λ× B(b → Λ0b) ( 5.8 ±0.8 )× 10−5 1740
pD0π− ( 6.3 ±0.7 )× 10−4 2370
pD0K− ( 4.6 ±0.8 )× 10−5 2269
pJ/ψπ− ( 2.6 +0.5−0.4 )× 10−5 1755
pπ− J/ψ, J/ψ → µ+µ− ( 1.6 ±0.8 )× 10−6 –
pJ/ψK− ( 3.2 +0.6−0.5 )× 10−4 1589
Pc(4380)+K−, Pc →
pJ/ψ[u] ( 2.7 ±1.4 )× 10−5 –
Pc(4450)+K−, Pc →
pJ/ψ[u] ( 1.3 ±0.4 )× 10−5 –
χc1(1P)pK− ( 7.6 +1.5
−1.3 )× 10−5 1242
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χc2(1P)pK− ( 7.9 +1.6
−1.4 )× 10−5 1198
pJ/ψ(1S)π+π−K− ( 6.6 +1.3−1.1 )× 10−5 1410
pψ(2S)K− ( 6.6 +1.2−1.0 )× 10−5 1063
χc1(3872)pK−, χc1(3872) →
J/ψπ+π−( 1.23±0.33)× 10−6 –
ψ(2S)pπ− ( 7.5 +1.6−1.4 )× 10−6 1320
pK0π− ( 1.3 ±0.4 )× 10−5 2693
pK0K− < 3.5 × 10−6 CL=90% 2639
Λ+cπ− ( 4.9 ±0.4 )× 10−3 S=1.2 2342
Λ+cK− ( 3.59±0.30)× 10−4 S=1.2 2314
Λ+ca1(1260)
− seen 2153
Λ+cD− ( 4.6 ±0.6 )× 10−4 1886
Λ+cD−
s( 1.10±0.10) % 1833
Λ+cπ+π−π− ( 7.7 ±1.1 )× 10−3 S=1.1 2323
Λc(2595)+π− ,
Λc(2595)+ → Λ+
cπ+π−
( 3.4 ±1.5 )× 10−4 2210
Λc(2625)+π− ,
Λc(2625)+ → Λ+
cπ+π−
( 3.3 ±1.3 )× 10−4 2193
Σc(2455)0π+π− , Σ0
c →
Λ+cπ−
( 5.7 ±2.2 )× 10−4 2265
Σc(2455)++π−π− , Σ++
c→
Λ+cπ+
( 3.2 ±1.6 )× 10−4 2265
Λ+cppπ− ( 2.65±0.29)× 10−4 1805
Σc(2455)0pp , Σc (2455)
0 →
Λ+cπ−
( 2.4 ±0.5 )× 10−5 –
Σc(2520)0pp , Σc (2520)
0 →
Λ+cπ−
( 3.2 ±0.7 )× 10−5 –
Λ+cℓ−νℓ anything [v ] (10.9 ±2.2 ) % –
Λ+cℓ− νℓ ( 6.2 +1.4
−1.3 ) % 2345
Λ+cπ+π− ℓ−νℓ ( 5.6 ±3.1 ) % 2335
Λc(2595)+ ℓ− νℓ ( 7.9 +4.0
−3.5 )× 10−3 2212
Λc(2625)+ ℓ− νℓ ( 1.3 +0.6
−0.5 ) % 2195
ph− [x] < 2.3 × 10−5 CL=90% 2730
pπ− ( 4.5 ±0.8 )× 10−6 2730
pK− ( 5.4 ±1.0 )× 10−6 2709
pD−s
< 4.8 × 10−4 CL=90% 2364
pµ− νµ ( 4.1 ±1.0 )× 10−4 2730
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Λµ+µ− ( 1.08±0.28)× 10−6 2695
pπ−µ+µ− ( 6.9 ±2.5 )× 10−8 2720
Λγ ( 7.1 ±1.7 )× 10−6 2699
Λη ( 9 +7−5 )× 10−6 2670
Λη′(958) < 3.1 × 10−6 CL=90% 2611
Λπ+π− ( 4.7 ±1.9 )× 10−6 2692
ΛK+π− ( 5.7 ±1.3 )× 10−6 2660
ΛK+K− ( 1.62±0.23)× 10−5 2605
Λφ ( 9.8 ±2.6 )× 10−6 2599
pπ−π+π− ( 2.11±0.23)× 10−5 2715
pK−K+π− ( 4.1 ±0.6 )× 10−6 2612
pK−π+π− ( 5.1 ±0.5 )× 10−5 2675
pK−K+K− ( 1.27±0.14)× 10−5 2524
Λb(5912)0Λb(5912)0Λb(5912)0Λb(5912)0 JP = 1
2−
Mass m = 5912.20 ± 0.21 MeV
Full width Γ < 0.66 MeV, CL = 90%
Λb(5912)0 DECAY MODESΛb(5912)0 DECAY MODESΛb(5912)0 DECAY MODESΛb(5912)0 DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ0b π+π− seen 86
Λb(5920)0Λb(5920)0Λb(5920)0Λb(5920)0 JP = 3
2−
Mass m = 5919.92 ± 0.19 MeV (S = 1.1)
Full width Γ < 0.63 MeV, CL = 90%
Λb(5920)0 DECAY MODESΛb(5920)0 DECAY MODESΛb(5920)0 DECAY MODESΛb(5920)0 DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ0b π+π− seen 108
Λb(6146)0Λb(6146)0Λb(6146)0Λb(6146)0 JP = 3
2+
Mass m = 6146.2 ± 0.4 MeV
Full width Γ = 2.9 ± 1.3 MeV
Full width Γ = 526.55 ± 0.34 MeV
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Λb(6152)0Λb(6152)0Λb(6152)0Λb(6152)0 JP = 5
2+
Mass m = 6152.5 ± 0.4 MeVFull width Γ = 2.1 ± 0.9 MeVFull width Γ = 532.89 ± 0.28 MeVFull width Γ = 6.34 ± 0.32 MeV
ΣbΣbΣbΣb I (JP ) = 1(12+)
I, J, P need confirmation.
Mass m(Σ+b) = 5810.56 ± 0.25 MeV
Mass m(Σ−b) = 5815.64 ± 0.27 MeV
mΣ+
b
− mΣ−
b
= −5.06 ± 0.18 MeV
Γ(Σ+b) = 5.0 ± 0.5 MeV
Γ(Σ−b) = 5.3 ± 0.5 MeV
Σb DECAY MODESΣb DECAY MODESΣb DECAY MODESΣb DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ0b π dominant 133
Σ ∗
bΣ ∗
bΣ ∗
bΣ ∗
bI (JP ) = 1(32
+)I, J, P need confirmation.
Mass m(Σ∗+b
) = 5830.32 ± 0.27 MeV
Mass m(Σ∗−b
) = 5834.74 ± 0.30 MeVm
Σ∗+b
− mΣ∗−
b
= −4.37 ± 0.33 MeV (S = 1.6)
mΣ∗+
b
− mΣ+
b
= 19.73 ± 0.18
mΣ∗−
b
− mΣ−
b
= 19.09 ± 0.22
Γ(Σ∗+b
) = 9.4 ± 0.5 MeV
Γ(Σ∗−b
) = 10.4 ± 0.8 MeV (S = 1.3)m
Σ∗b− mΣb
= 21.2 ± 2.0 MeV
Σ∗b
DECAY MODESΣ∗b
DECAY MODESΣ∗b
DECAY MODESΣ∗b
DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λ0b π dominant 159
Σb(6097)+Σb(6097)+Σb(6097)+Σb(6097)+ JP = ??
Mass m = 6095.8 ± 1.7 MeVFull width Γ = 31 ± 6 MeV
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Σb(6097)+ DECAY MODESΣb(6097)+ DECAY MODESΣb(6097)+ DECAY MODESΣb(6097)+ DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λb π+× B(b → Σb(6097)
+) seen –
Σb(6097)−Σb(6097)−Σb(6097)−Σb(6097)− JP = ??
Mass m = 6098.0 ± 1.8 MeV
Full width Γ = 29 ± 4 MeV
Σb(6097)− DECAY MODESΣb(6097)− DECAY MODESΣb(6097)− DECAY MODESΣb(6097)− DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Λb π−× B(b → Σb(6097)
−) seen –
Ξ 0b, Ξ−
bΞ 0
b, Ξ−
bΞ 0
b, Ξ−
bΞ 0
b, Ξ−
bI (JP ) = 1
2 (12+)
I, J, P need confirmation.
m(Ξ−b) = 5797.0 ± 0.6 MeV (S = 1.7)
m(Ξ0b) = 5791.9 ± 0.5 MeV
mΞ−b
− mΛ0b= 177.5 ± 0.5 MeV (S = 1.6)
mΞ0b− m
Λ0b= 172.5 ± 0.4 MeV
mΞ−b
− mΞ0b= 5.9 ± 0.6 MeV
Mean life τΞ−b
= (1.572 ± 0.040)× 10−12 s
Mean life τΞ0b= (1.480 ± 0.030)× 10−12 s
Scale factor/ p
Ξb DECAY MODESΞb DECAY MODESΞb DECAY MODESΞb DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
Ξ− ℓ−νℓX × B(b → Ξb) (3.9 ±1.2 )× 10−4 S=1.4 –
J/ψΞ−× B(b → Ξ−b) (1.02+0.26
−0.21)× 10−5 1782
J/ψΛK−× B(b → Ξ−b) (2.5 ±0.4 )× 10−6 1631
pD0K−× B(b → Ξb) (1.7 ±0.6 )× 10−6 2374
pK0π−× B(b → Ξb)/B(b →B0)
< 1.6 × 10−6 CL=90% 2783
pK0K−× B(b → Ξb)/B(b →B0)
< 1.1 × 10−6 CL=90% 2730
pK−K−× B(b → Ξb) (3.7 ±0.8 )× 10−8 2731
Λπ+π−× B(b → Ξ0b)/B(b →
Λ0b)
< 1.7 × 10−6 CL=90% 2781
ΛK−π+× B(b → Ξ0b)/B(b →
Λ0b)
< 8 × 10−7 CL=90% 2751
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ΛK+K−× B(b → Ξ0b)/B(b →
Λ0b)
< 3 × 10−7 CL=90% 2698
Λ+cK−× B(b → Ξb) (6 ±4 )× 10−7 2416
Λ0b π−× B(b → Ξ−
b)/B(b → Λ0b) (5.7 ±2.0 )× 10−4 99
pK−π+π−× B(b →Ξ0b)/B(b → Λ0b)
(1.9 ±0.4 )× 10−6 2766
pK−K−π+× B(b →Ξ0b)/B(b → Λ0b)
(1.73±0.32)× 10−6 2704
pK−K+K−× B(b →Ξ0b)/B(b → Λ0b)
(1.8 ±1.0 )× 10−7 2620
Ξ ′
b(5935)−Ξ ′
b(5935)−Ξ ′
b(5935)−Ξ ′
b(5935)− JP = 1
2+
Mass m = 5935.02 ± 0.05 MeV
mΞ ′b(5935)−
− mΞ0b− m
π− = 3.653 ± 0.019 MeV
Full width Γ < 0.08 MeV, CL = 95%
Ξ ′b(5935)− DECAY MODESΞ ′
b(5935)− DECAY MODESΞ ′
b(5935)− DECAY MODESΞ ′
b(5935)− DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ0b π
−× B(b →
Ξ ′b(5935)
−)/B(b → Ξ0b)
(11.8±1.8) % 31
Ξb(5945)0Ξb(5945)0Ξb(5945)0Ξb(5945)0 JP = 3
2+
Mass m = 5952.3 ± 0.6 MeV
Full width Γ = 0.90 ± 0.18 MeV
Ξb(5945)0 DECAY MODESΞb(5945)0 DECAY MODESΞb(5945)0 DECAY MODESΞb(5945)0 DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ−bπ+ seen 78
Ξb(5955)−Ξb(5955)−Ξb(5955)−Ξb(5955)− JP = 3
2+
Mass m = 5955.33 ± 0.13 MeV
mΞb(5955)
− − mΞ0b− m
π− = 23.96 ± 0.13 MeV
Full width Γ = 1.65 ± 0.33 MeV
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Ξb(5955)− DECAY MODESΞb(5955)− DECAY MODESΞb(5955)− DECAY MODESΞb(5955)− DECAY MODES Fraction (Γi /Γ) p (MeV/c)
Ξ0b π
−× B(b →
Ξ∗b(5955)
−)/B(b → Ξ0b)
(20.7±3.5) % 84
Ξb(6227)Ξb(6227)Ξb(6227)Ξb(6227) JP = ??
Mass m = 6226.9 ± 2.0 MeV
Full width Γ = 18 ± 6 MeV
p
Ξb(6227) DECAY MODESΞb(6227) DECAY MODESΞb(6227) DECAY MODESΞb(6227) DECAY MODES Fraction (Γi /Γ) Scale factor (MeV/c)
Λ0bK−× B(b →
Ξb(6227))/B(b → Λ0b)
(3.20±0.35)× 10−3 336
Ξ0b π
−× B(b →
Ξb(6227))/B(b → Ξ0b)
(2.8 ±1.1 ) % 1.8 398
Ω−
bΩ−
bΩ−
bΩ−
bI (JP ) = 0(12
+)I, J, P need confirmation.
Mass m = 6046.1 ± 1.7 MeV
mΩ−
b
− mΛ0b= 426.4 ± 2.2 MeV
mΩ−
b
− mΞ−b
= 247.3 ± 3.2 MeV
Mean life τ = (1.64+0.18−0.17)× 10−12 s
τ(Ω−b)/τ(Ξ−
b) mean life ratio = 1.11 ± 0.16
p
Ω−b
DECAY MODESΩ−b
DECAY MODESΩ−b
DECAY MODESΩ−b
DECAY MODES Fraction (Γi /Γ) Confidence level (MeV/c)
J/ψΩ−×B(b → Ωb) (2.9+1.1−0.8)× 10−6 1806
pK−K−×B(b → Ωb) < 2.5 × 10−9 90% 2866
pπ−π−×B(b → Ωb) < 1.5 × 10−8 90% 2943
pK−π−×B(b → Ωb) < 7 × 10−9 90% 2915
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b-baryon ADMIXTURE (Λb, Ξb, Ωb)b-baryon ADMIXTURE (Λb, Ξb, Ωb)b-baryon ADMIXTURE (Λb, Ξb, Ωb)b-baryon ADMIXTURE (Λb, Ξb, Ωb)
These branching fractions are actually an average over weakly decaying b-
baryons weighted by their production rates at the LHC, LEP, and Tevatron,
branching ratios, and detection efficiencies. They scale with the b-baryonproduction fraction B(b → b -baryon).
The branching fractions B(b -baryon → Λℓ− νℓ anything) and B(Λ0b
→
Λ+cℓ− νℓ anything) are not pure measurements because the underlying
measured products of these with B(b → b -baryon) were used to determineB(b → b -baryon), as described in the note “Production and Decay of
b-Flavored Hadrons.”
For inclusive branching fractions, e.g., B → D± anything, the values
usually are multiplicities, not branching fractions. They can be greaterthan one.
b-baryon ADMIXTURE DECAY MODESb-baryon ADMIXTURE DECAY MODESb-baryon ADMIXTURE DECAY MODESb-baryon ADMIXTURE DECAY MODES
(Λb ,Ξb ,Ωb)(Λb ,Ξb ,Ωb)(Λb ,Ξb ,Ωb)(Λb ,Ξb ,Ωb) Fraction (Γi /Γ) p (MeV/c)
pµ− ν anything ( 5.8+ 2.3− 2.0) % –
p ℓνℓ anything ( 5.6± 1.2) % –panything (70 ±22 ) % –Λℓ−νℓ anything ( 3.8± 0.6) % –Λℓ+νℓ anything ( 3.2± 0.8) % –Λanything (39 ± 7 ) % –Ξ− ℓ−νℓ anything ( 6.6± 1.6)× 10−3 –
EXOTIC BARYONSEXOTIC BARYONSEXOTIC BARYONSEXOTIC BARYONS
Pc(4312)+Pc(4312)+Pc(4312)+Pc(4312)+
Mass m = 4311.9+7.0−0.9 MeV
Full width Γ = 10 ± 5 MeV
Pc (4312)+ DECAY MODESPc (4312)+ DECAY MODESPc (4312)+ DECAY MODESPc (4312)+ DECAY MODES Fraction (Γi /Γ) p (MeV/c)
J/ψp seen 658
Pc(4380)+Pc(4380)+Pc(4380)+Pc(4380)+
Mass m = 4380 ± 30 MeV
Full width Γ = 205 ± 90 MeV
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Pc (4380)+ DECAY MODESPc (4380)+ DECAY MODESPc (4380)+ DECAY MODESPc (4380)+ DECAY MODES Fraction (Γi /Γ) p (MeV/c)
J/ψp seen 741
Pc(4440)+Pc(4440)+Pc(4440)+Pc(4440)+
Mass m = 4440+4−5 MeV
Full width Γ = 21+10−11 MeV
Pc (4440)+ DECAY MODESPc (4440)+ DECAY MODESPc (4440)+ DECAY MODESPc (4440)+ DECAY MODES Fraction (Γi /Γ) p (MeV/c)
J/ψp seen 810
Pc(4457)+Pc(4457)+Pc(4457)+Pc(4457)+
was Pc(4450)
Mass m = 4457.3+4.0−1.8 MeV
Full width Γ = 6.4+6.0−2.8 MeV
Pc (4457)+ DECAY MODESPc (4457)+ DECAY MODESPc (4457)+ DECAY MODESPc (4457)+ DECAY MODES Fraction (Γi /Γ) p (MeV/c)
J/ψp seen 828
NOTES
[a] The masses of the p and n are most precisely known in u (unified atomicmass units). The conversion factor to MeV, 1 u = 931.494061(21) MeV,is less well known than are the masses in u.
[b] The∣
∣mp−mp
∣
∣/mp and∣
∣qp + qp∣
∣/e are not independent, and both use
the more precise measurement of∣
∣qp/mp
∣
∣/(qp/mp).
[c] The limit is from neutrality-of-matter experiments; it assumes qn = qp +qe . See also the charge of the neutron.
[d] The µp and e p values for the charge radius are much too different toaverage them. The disagreement is not yet understood.
[e] There is a lot of disagreement about the value of the proton magneticcharge radius. See the Listings.
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[f ] The first limit is for p → anything or ”disappearance” modes of a boundproton. The second entry, a rough range of limits, assumes the dominantdecay modes are among those investigated. For antiprotons the bestlimit, inferred from the observation of cosmic ray p’s is τ p > 107
yr, the cosmic-ray storage time, but this limit depends on a number ofassumptions. The best direct observation of stored antiprotons givesτ p/B(p → e−γ) > 7× 105 yr.
[g ] There is some controversy about whether nuclear physics and modeldependence complicate the analysis for bound neutrons (from which thebest limit comes). The first limit here is from reactor experiments withfree neutrons.
[h] Lee and Yang in 1956 proposed the existence of a mirror world in anattempt to restore global parity symmetry—thus a search for oscillationsbetween the two worlds. Oscillations between the worlds would be max-imal when the magnetic fields B and B ′ were equal. The limit for anyB ′ in the range 0 to 12.5 µT is >12 s (95% CL).
[i ] The parameters gA, gV , and gWM for semileptonic modes are defined byB f [γλ(gV + gAγ5) + i(gWM/mBi
) σλν qν ]Bi , and φAV is defined by
gA/gV =∣
∣gA/gV∣
∣eiφAV . See the “Note on Baryon Decay Parameters”in the neutron Particle Listings.
[j ] Time-reversal invariance requires this to be 0 or 180.
[k] This coefficient is zero if time invariance is not violated.
[l ] This limit is for γ energies between 0.4 and 782 keV.
[n] The decay parameters γ and ∆ are calculated from α and φ using
γ =√
1−α2 cosφ , tan∆ = − 1α
√
1−α2 sinφ .
See the “Note on Baryon Decay Parameters” in the neutron Particle List-ings.
[o] See the Listings for the pion momentum range used in this measurement.
[p] Our estimate. See the Particle Listings for details.
[q] A theoretical value using QED.
[r ] This branching fraction includes all the decay modes of the final-stateresonance.
[s] See AALTONEN 11H, Fig. 8, for the calculated ratio of Λ+cπ0π0 and
Λ+cπ+π− partial widths as a function of the Λc(2595)
+ − Λ+c
massdifference. At our value of the mass difference, the ratio is about 4.
[t] A test that the isospin is indeed 0, so that the particle is indeed a Λ+c.
[u] P+c
is a pentaquark-charmonium state.
[v ] Not a pure measurement. See note at head of Λ0b Decay Modes.
[x ] Here h− means π− or K−.
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